?imatadd
矩阵缩放后in-place加计算。
即。
op可取值:。
接口定义
C interface:
void cblas_simatadd(const enum CBLAS_ORDER ordering, const enum CBLAS_TRANSPOSE TransA, const BLASINT m, const BLASINT n, const float alpha, float *A, const BLASINT lda, float *BC, const BLASINT ldb);
void cblas_dimatadd(const enum CBLAS_ORDER ordering, const enum CBLAS_TRANSPOSE TransA, const BLASINT m, const BLASINT n, const double alpha, double *A, const BLASINT lda, double *BC, const BLASINT ldb);
void cblas_cimatadd(const enum CBLAS_ORDER ordering, const enum CBLAS_TRANSPOSE TransA, const BLASINT m, const BLASINT n, const float *alpha, float *A, const BLASINT lda, float *BC, const BLASINT ldb);
void cblas_zimatadd(const enum CBLAS_ORDER ordering, const enum CBLAS_TRANSPOSE TransA, const BLASINT m, const BLASINT n, const double *alpha, double *A, const BLASINT lda, double *BC, const BLASINT ldb);
Fortran interface:
CALL SIMATADD(ORDER, TRANSA, M, N, ALPHA, A, LDA, BC, LDB)
CALL DIMATADD(ORDER, TRANSA, M, N, ALPHA, A, LDA, BC, LDB)
CALL CIMATADD(ORDER, TRANSA, M, N, ALPHA, A, LDA, BC, LDB)
CALL ZIMATADD(ORDER, TRANSA, M, N, ALPHA, A, LDA, BC, LDB)
参数
参数名 |
类型 |
描述 |
输入/输出 |
---|---|---|---|
order |
枚举类型CBLAS_ORDER |
表示矩阵是行主序或列主序。 |
输入 |
TransA |
枚举类型CBLAS_TRANSPOSE |
矩阵A为常规矩阵,转置矩阵,共轭矩阵或转置共轭矩阵。
|
输入 |
M |
整型数 |
矩阵op(A)、BC的行。 |
输入 |
N |
整型数 |
矩阵op(A)、BC的列。 |
输入 |
alpha |
|
表示乘法系数。 |
输入 |
A |
|
矩阵A。 |
输入 |
lda |
整型数 |
|
输入 |
BC |
|
矩阵BC。 |
输入 |
ldb |
整型数 |
|
输入 |
依赖
#include "kblas.h"
示例
C interface:
int m = 4; int n = 3; int lda = 4; int ldb = 4; float alpha = 2.0; /** * A: * 0.558402, 0.691866, 0.533786, * 0.670904, 0.655601, 0.542604, * 0.743670, 0.965085, 0.993501, * 0.623749, 0.587617, 0.966428 * BC: * 0.730575, 0.624083, 0.526782, * 0.804889, 0.677061, 0.529442, * 0.785305, 0.802311, 0.508981, * 0.574068, 0.646785, 0.717143 */ float a[12] = {0.558402, 0.691866, 0.533786, 0.670904, 0.655601, 0.542604, 0.743670, 0.965085, 0.993501, 0.623749, 0.587617, 0.966428 }; float bc[12] = {0.730575, 0.624083, 0.526782, 0.804889, 0.677061, 0.529442, 0.785305, 0.802311, 0.508981, 0.574068, 0.646785, 0.717143, }; cblas_simatadd(CblasColMajor, CblasNoTrans, m, n, alpha, a, lda, bc, ldb); /** * Output BC: * 1.847379, 2.007814, 1.594354, * 2.146696, 1.988263, 1.614650, * 2.272644, 2.732482, 2.495982, * 1.821566, 1.822019, 2.649999 */
Fortran interface:
PROGRAM IMATADD INTEGER :: M=4, N=3 INTEGER :: LDA=4, LDB=4 REAL(4) :: ALPHA=2.0 REAL(4) :: A(4, 3), BC(4, 3) DATA A/0.558402, 0.691866, 0.533786, 0.670904, 0.655601, 0.542604, 0.743670, 0.965085, 0.993501, 0.623749, 0.587617, 0.966428/ DATA BC/0.730575, 0.624083, 0.526782, 0.804889, 0.677061, 0.529442, 0.785305, 0.802311, 0.508981, 0.574068, 0.646785, 0.717143/ EXTERNAL SIMATADD CALL SIMATADD('C', 'N', M, N, ALPHA, A, LDA, BC, LDB) END * Output BC: * 1.847379, 2.007814, 1.594354, * 2.146696, 1.988263, 1.614650, * 2.272644, 2.732482, 2.495982, * 1.821566, 1.822019, 2.649999