Computes the matrix (inner) product of the transpose of A and B. The product is a banded matrix whose lower bandwidth is the sum of the upper bandwidth of A and the lower bandwidth ofB, and whose upper bandwidth is the sum of the lower bandwidth of A and the upper bandwidth of B.

Computes the matrix (inner) product of the transpose of A and B. The product is a banded matrix whose lower bandwidth is the sum of the upper bandwidth of A and the lower bandwidth ofB, and whose upper bandwidth is the sum of the lower bandwidth of A and the upper bandwidth of B.

Product of the transpose of a sparse matrix in compressed row (CSR) format with a dense vector.

Matrix transpose inner product of two sparse matrices in compressed row (CSR) format. The result is a sparse matrix in CSR format.

Product of the transpose of a sparse matrix in compressed row (CSR) format with a dense vector.

Matrix transpose inner product of two sparse matrices in compressed row (CSR) format. The result is a sparse matrix in CSR format.

Computes the matrix (inner) product of the transpose of A and B. The product is a banded matrix whose lower bandwidth is the sum of the upper bandwidth of A and the lower bandwidth ofB, and whose upper bandwidth is the sum of the lower bandwidth of A and the upper bandwidth of B.

Computes the matrix (inner) product of the transpose of A and B. The product is a banded matrix whose lower bandwidth is the sum of the upper bandwidth of A and the lower bandwidth ofB, and whose upper bandwidth is the sum of the lower bandwidth of A and the upper bandwidth of B.