Accord.Math.Core
Vector types.
The vector is a row vector, meaning it should have a size equivalent
to [1 x N] where N is the number of elements in the vector.
The vector is a column vector, meaning it should have a size equivalent
to [N x 1] where N is the number of elements in the vector.
Elementwise matrix and vector operations.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise addition between a vector a and a vector b.
The vector a.
The vector b.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise addition between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise addition between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Determines whether two vectors contain the same values.
Determines whether two matrices contain the same values.
Determines whether two matrices contain the same values.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise division between a vector a and a vector b.
The vector a.
The vector b.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise division between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise division between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise exponential.
Elementwise exponential.
Elementwise exponential.
Elementwise logarithm.
Elementwise logarithm.
Elementwise logarithm.
Elementwise sign.
Elementwise sign.
Elementwise sign.
Elementwise absolute value.
Elementwise absolute value.
Elementwise absolute value.
Elementwise square-root.
Elementwise square-root.
Elementwise square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise floor.
Elementwise floor.
Elementwise floor.
Elementwise ceiling.
Elementwise ceiling.
Elementwise ceiling.
Elementwise round.
Elementwise round.
Elementwise round.
Elementwise exponential.
Elementwise exponential.
Elementwise exponential.
Elementwise logarithm.
Elementwise logarithm.
Elementwise logarithm.
Elementwise sign.
Elementwise sign.
Elementwise sign.
Elementwise absolute value.
Elementwise absolute value.
Elementwise absolute value.
Elementwise square-root.
Elementwise square-root.
Elementwise square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise floor.
Elementwise floor.
Elementwise floor.
Elementwise ceiling.
Elementwise ceiling.
Elementwise ceiling.
Elementwise round.
Elementwise round.
Elementwise round.
Elementwise exponential.
Elementwise exponential.
Elementwise exponential.
Elementwise logarithm.
Elementwise logarithm.
Elementwise logarithm.
Elementwise sign.
Elementwise sign.
Elementwise sign.
Elementwise absolute value.
Elementwise absolute value.
Elementwise absolute value.
Elementwise square-root.
Elementwise square-root.
Elementwise square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise floor.
Elementwise floor.
Elementwise floor.
Elementwise ceiling.
Elementwise ceiling.
Elementwise ceiling.
Elementwise round.
Elementwise round.
Elementwise round.
Elementwise exponential.
Elementwise exponential.
Elementwise exponential.
Elementwise logarithm.
Elementwise logarithm.
Elementwise logarithm.
Elementwise sign.
Elementwise sign.
Elementwise sign.
Elementwise absolute value.
Elementwise absolute value.
Elementwise absolute value.
Elementwise square-root.
Elementwise square-root.
Elementwise square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise floor.
Elementwise floor.
Elementwise floor.
Elementwise ceiling.
Elementwise ceiling.
Elementwise ceiling.
Elementwise round.
Elementwise round.
Elementwise round.
Elementwise exponential.
Elementwise exponential.
Elementwise exponential.
Elementwise logarithm.
Elementwise logarithm.
Elementwise logarithm.
Elementwise sign.
Elementwise sign.
Elementwise sign.
Elementwise absolute value.
Elementwise absolute value.
Elementwise absolute value.
Elementwise square-root.
Elementwise square-root.
Elementwise square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise floor.
Elementwise floor.
Elementwise floor.
Elementwise ceiling.
Elementwise ceiling.
Elementwise ceiling.
Elementwise round.
Elementwise round.
Elementwise round.
Elementwise exponential.
Elementwise exponential.
Elementwise exponential.
Elementwise logarithm.
Elementwise logarithm.
Elementwise logarithm.
Elementwise sign.
Elementwise sign.
Elementwise sign.
Elementwise absolute value.
Elementwise absolute value.
Elementwise absolute value.
Elementwise square-root.
Elementwise square-root.
Elementwise square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise signed square-root.
Elementwise floor.
Elementwise floor.
Elementwise floor.
Elementwise ceiling.
Elementwise ceiling.
Elementwise ceiling.
Elementwise round.
Elementwise round.
Elementwise round.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise exponential.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise logarithm.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise sign.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise absolute value.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed square-root.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise floor.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise ceiling.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise round.
A matrix.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise power.
A matrix.
A power.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise signed power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise power.
A matrix.
A power.
The vector where the result should be stored. Pass the same
vector as to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vector b.
The vector a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise multiplication (note: this is not a dot or matrix product) between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Multiplies a matrix A with a scalar b and accumulates with c.
The matrix A.
The scalar b.
The matrix c.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
Elementwise subtraction between a vector a and a vector b.
The vector a.
The vector b.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and a vector b.
The scalar a.
The vector b.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a scalar a and to the main diagonal of matrix B.
The scalar a.
The matrix B.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a matrix B.
The matrix A.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix B.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a matrix b.
The scalar a.
The matrix B.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a scalar b.
The matrix A.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a vectorb.
The vector a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a vector a and a scalar b.
The vector a.
The scalar b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Elementwise subtraction between a scalar a and a vectorb.
The scalar a.
The vector b.
The vector where the result should be stored. Pass the same
vector as one of the arguments to perform the operation in place.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Obsolete. Please specify a in place of an integer in the dimension argument.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The vector a.
The matrix B.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.
Elementwise subtraction between a matrix A and a vectorb.
The matrix A.
The vector b.
The type of the vector being passed to the function. If the vector
is a , then the operation will
be applied between each row of the matrix and the given vector. If
the vector is a , then the
operation will be applied between each column of the matrix and the
given vector.
The matrix where the result should be stored. Pass the same
matrix as one of the arguments to perform the operation in place.