static int RunTest(int *iparam, double *dparam, real_Double_t *t_) { PASTE_CODE_IPARAM_LOCALS( iparam ); if ( M != N && check ) { fprintf(stderr, "Check cannot be perfomed with M != N\n"); check = 0; } /* Allocate Data */ PASTE_CODE_ALLOCATE_MATRIX_TILE( descA, 1, PLASMA_Complex64_t, PlasmaComplexDouble, LDA, M, N ); PLASMA_zplrnt_Tile(descA, 3456); { PLASMA_Complex64_t *Amat; int m, i, ldam; for(m=0; m<MT; m++) { ldam = BLKLDD( *descA, m ); Amat = (PLASMA_Complex64_t*)plasma_getaddr(*descA, m, m); for(i=0; i<ldam; i++) { Amat[i*ldam+i] += max(M,N); } } } /* Save AT in lapack layout for check */ PASTE_TILE_TO_LAPACK( descA, A, check, PLASMA_Complex64_t, LDA, N ); START_TIMING(); PLASMA_zgetrf_nopiv_Tile( descA ); STOP_TIMING(); /* Check the solution */ if ( check ) { PASTE_CODE_ALLOCATE_MATRIX_TILE( descB, 1, PLASMA_Complex64_t, PlasmaComplexDouble, LDB, N, NRHS ); PLASMA_zplrnt_Tile( descB, 7732 ); PASTE_TILE_TO_LAPACK( descB, b, check, PLASMA_Complex64_t, LDB, NRHS ); PLASMA_ztrsm_Tile( PlasmaLeft, PlasmaLower, PlasmaNoTrans, PlasmaUnit, 1.0, descA, descB ); PLASMA_ztrsm_Tile( PlasmaLeft, PlasmaUpper, PlasmaNoTrans, PlasmaNonUnit, 1.0, descA, descB ); PASTE_TILE_TO_LAPACK( descB, x, check, PLASMA_Complex64_t, LDB, NRHS ); dparam[IPARAM_RES] = z_check_solution(M, N, NRHS, A, LDA, b, x, LDB, &(dparam[IPARAM_ANORM]), &(dparam[IPARAM_BNORM]), &(dparam[IPARAM_XNORM])); free(A); free(b); free(x); } PASTE_CODE_FREE_MATRIX( descA ); return 0; }
void PLASMA_ZTRSM_TILE(PLASMA_enum *side, PLASMA_enum *uplo, PLASMA_enum *transA, PLASMA_enum *diag, PLASMA_Complex64_t *alpha, intptr_t *A, intptr_t *B, int *INFO) { *INFO = PLASMA_ztrsm_Tile(*side, *uplo, *transA, *diag, *alpha, (PLASMA_desc *)(*A), (PLASMA_desc *)(*B)); }