Visible to Intel only — GUID: GUID-24A523AE-1FD6-4D9F-AB75-C8DE62D0BABF
Visible to Intel only — GUID: GUID-24A523AE-1FD6-4D9F-AB75-C8DE62D0BABF
mkl_sparse_?_trsm
Solves a system of linear equations with multiple right hand sides for a triangular sparse matrix.
sparse_status_t mkl_sparse_s_trsm (const sparse_operation_t operation, const float alpha, const sparse_matrix_t A, const struct matrix_descr descr, const sparse_layout_t layout, const float *x, const MKL_INT columns, const MKL_INT ldx, float *y, const MKL_INT ldy);
sparse_status_t mkl_sparse_d_trsm (const sparse_operation_t operation, const double alpha, const sparse_matrix_t A, const struct matrix_descr descr, const sparse_layout_t layout, const double *x, const MKL_INT columns, const MKL_INT ldx, double *y, const MKL_INT ldy);
sparse_status_t mkl_sparse_c_trsm (const sparse_operation_t operation, const MKL_Complex8 alpha, const sparse_matrix_t A, const struct matrix_descr descr, const sparse_layout_t layout, const MKL_Complex8 *x, const MKL_INT columns, const MKL_INT ldx, MKL_Complex8 *y, const MKL_INT ldy);
sparse_status_t mkl_sparse_z_trsm (const sparse_operation_t operation, const MKL_Complex16 alpha, const sparse_matrix_t A, const struct matrix_descr descr, const sparse_layout_t layout, const MKL_Complex16 *x, const MKL_INT columns, const MKL_INT ldx, MKL_Complex16 *y, const MKL_INT ldy);
- mkl_spblas.h
The mkl_sparse_?_trsm routine solves a system of linear equations with multiple right hand sides for a triangular sparse matrix:
Y := alpha*inv(op(A))*X
where:
alpha is a scalar, X and Y are dense matrices, A is a sparse matrix, and op is a matrix modifier for matrix A.
The mkl_sparse_?_mm and mkl_sparse_?_trsm routines support these configurations:
Column-major dense matrix: layout = SPARSE_LAYOUT_COLUMN_MAJOR |
Row-major dense matrix: layout = SPARSE_LAYOUT_ROW_MAJOR |
|
0-based sparse matrix: SPARSE_INDEX_BASE_ZERO |
CSR BSR: general non-transposed matrix multiplication only |
All formats |
1-based sparse matrix: SPARSE_INDEX_BASE_ONE |
All formats |
CSR BSR: general non-transposed matrix multiplication only |
For sparse matrices in the BSR format, the supported combinations of (indexing,block_layout) are:
(SPARSE_INDEX_BASE_ZERO, SPARSE_LAYOUT_ROW_MAJOR )
(SPARSE_INDEX_BASE_ONE, SPARSE_LAYOUT_COLUMN_MAJOR )
- operation
-
Specifies operation op() on input matrix.
SPARSE_OPERATION_NON_TRANSPOSE
Non-transpose, op(A) = A.
SPARSE_OPERATION_TRANSPOSE
Transpose, op(A) = AT.
SPARSE_OPERATION_CONJUGATE_TRANSPOSE
Conjugate transpose, op(A) = AH.
- alpha
-
Specifies the scalar alpha.
- A
-
Handle which contains the sparse matrix A.
- descr
-
Structure specifying sparse matrix properties.
sparse_matrix_type_t type - Specifies the type of a sparse matrix:
SPARSE_MATRIX_TYPE_GENERAL
The matrix is processed as is.
SPARSE_MATRIX_TYPE_SYMMETRIC
The matrix is symmetric (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_HERMITIAN
The matrix is Hermitian (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_TRIANGULAR
The matrix is triangular (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_DIAGONAL
The matrix is diagonal (only diagonal elements are processed).
SPARSE_MATRIX_TYPE_BLOCK_TRIANGULAR
The matrix is block-triangular (only requested triangle is processed). Applies to BSR format only.
SPARSE_MATRIX_TYPE_BLOCK_DIAGONAL
The matrix is block-diagonal (only diagonal blocks are processed). Applies to BSR format only.
sparse_fill_mode_t mode - Specifies the triangular matrix part for symmetric, Hermitian, triangular, and block-triangular matrices:
SPARSE_FILL_MODE_LOWER
The lower triangular matrix part is processed.
SPARSE_FILL_MODE_UPPER
The upper triangular matrix part is processed.
sparse_diag_type_t diag - Specifies diagonal type for non-general matrices:
SPARSE_DIAG_NON_UNIT
Diagonal elements might not be equal to one.
SPARSE_DIAG_UNIT
Diagonal elements are equal to one. - layout
-
Describes the storage scheme for the dense matrix:
SPARSE_LAYOUT_COLUMN_MAJOR
Storage of elements uses column major layout.
SPARSE_LAYOUT_ROW_MAJOR
Storage of elements uses row major layout.
- x
-
Array of size at least rows*cols.
layout = SPARSE_LAYOUT_COLUMN_MAJOR
layout = SPARSE_LAYOUT_ROW_MAJOR
rows (number of rows in x)
ldx
number of rows in A
cols (number of columns in x)
columns
ldx
On entry, the array x must contain the matrix X.
- columns
-
Number of columns in matrix Y.
- ldx
-
Specifies the leading dimension of matrix X.
- y
-
Array of size at least rows*cols, where
layout = SPARSE_LAYOUT_COLUMN_MAJOR
layout = SPARSE_LAYOUT_ROW_MAJOR
rows (number of rows in y)
ldy
number of rows in A
cols (number of columns in y)
columns
ldy
- y
-
Overwritten by the updated matrix Y.
The function returns a value indicating whether the operation was successful or not, and why.
SPARSE_STATUS_SUCCESS |
The operation was successful. |
SPARSE_STATUS_NOT_INITIALIZED |
The routine encountered an empty handle or matrix array. |
SPARSE_STATUS_ALLOC_FAILED |
Internal memory allocation failed. |
SPARSE_STATUS_INVALID_VALUE |
The input parameters contain an invalid value. |
SPARSE_STATUS_EXECUTION_FAILED |
Execution failed. |
SPARSE_STATUS_INTERNAL_ERROR |
An error in algorithm implementation occurred. |
SPARSE_STATUS_NOT_SUPPORTED |
The requested operation is not supported. |