diff --git a/testing/testing_zsyrk.c b/testing/testing_zsyrk.c
index dd70eed1425ee1e1b7dc18769de3065e64674c69..164d8ff5fed4aab73a3ddb7cba6c05a2cb5894e3 100644
--- a/testing/testing_zsyrk.c
+++ b/testing/testing_zsyrk.c
@@ -2,7 +2,7 @@
*
* @file testing_zsyrk.c
*
- * @copyright 2019-2021 Bordeaux INP, CNRS (LaBRI UMR 5800), Inria,
+ * @copyright 2019-2022 Bordeaux INP, CNRS (LaBRI UMR 5800), Inria,
* Univ. Bordeaux. All rights reserved.
*
***
@@ -13,7 +13,8 @@
* @author Lucas Barros de Assis
* @author Florent Pruvost
* @author Mathieu Faverge
- * @date 2020-11-19
+ * @author Alycia Lisito
+ * @date 2022-02-04
* @precisions normal z -> z c d s
*
*/
@@ -108,6 +109,77 @@ testing_zsyrk_desc( run_arg_list_t *args, int check )
return hres;
}
+int
+testing_zsyrk_std( run_arg_list_t *args, int check )
+{
+ testdata_t test_data = { .args = args };
+ int hres = 0;
+
+ /* Read arguments */
+ int nb = run_arg_get_int( args, "nb", 320 );
+ cham_trans_t trans = run_arg_get_trans( args, "trans", ChamNoTrans );
+ cham_uplo_t uplo = run_arg_get_uplo( args, "uplo", ChamUpper );
+ int N = run_arg_get_int( args, "N", 1000 );
+ int K = run_arg_get_int( args, "K", N );
+ int LDA = run_arg_get_int( args, "LDA", ( ( trans == ChamNoTrans ) ? N : K ) );
+ int LDC = run_arg_get_int( args, "LDC", N );
+ CHAMELEON_Complex64_t alpha = testing_zalea();
+ CHAMELEON_Complex64_t beta = testing_zalea();
+ CHAMELEON_Complex64_t bump = testing_zalea();
+ int seedA = run_arg_get_int( args, "seedA", random() );
+ int seedC = run_arg_get_int( args, "seedC", random() );
+
+ /* Descriptors */
+ int Am, An;
+ CHAMELEON_Complex64_t *A, *C, *Cinit;
+
+ alpha = run_arg_get_complex64( args, "alpha", alpha );
+ beta = run_arg_get_complex64( args, "beta", beta );
+ bump = run_arg_get_complex64( args, "bump", bump );
+
+ CHAMELEON_Set( CHAMELEON_TILE_SIZE, nb );
+
+ /* Calculates the dimensions according to the transposition */
+ if ( trans == ChamNoTrans ) {
+ Am = N;
+ An = K;
+ }
+ else {
+ Am = K;
+ An = N;
+ }
+
+ /* Creates the matrices */
+ A = malloc( LDA*An*sizeof(CHAMELEON_Complex64_t) );
+ C = malloc( LDC*N*sizeof(CHAMELEON_Complex64_t) );
+
+ /* Fills the matrix with random values */
+ CHAMELEON_zplrnt( Am, An, A, LDA, seedA );
+ CHAMELEON_zplgsy( bump, uplo, N, C, LDC, seedC );
+
+ /* Calculates the product */
+ testing_start( &test_data );
+ hres = CHAMELEON_zsyrk( uplo, trans, N, K, alpha, A, LDA, beta, C, LDC );
+ test_data.hres = hres;
+ testing_stop( &test_data, flops_zsyrk( K, N ) );
+
+ /* Checks the solution */
+ if ( check ) {
+ Cinit = malloc( LDC*N*sizeof(CHAMELEON_Complex64_t) );
+ CHAMELEON_zplgsy( bump, uplo, N, Cinit, LDC, seedC );
+
+ // hres += check_zsyrk( args, ChamSymmetric, uplo, trans, alpha, descA, NULL,
+ // beta, descCinit, descC );
+
+ free( Cinit );
+ }
+
+ free( A );
+ free( C );
+
+ return hres;
+}
+
testing_t test_zsyrk;
const char *zsyrk_params[] = { "mtxfmt", "nb", "trans", "uplo", "n", "k", "lda",
"ldc", "alpha", "beta", "seedA", "seedC", "bump", NULL };
@@ -127,7 +199,7 @@ testing_zsyrk_init( void )
test_zsyrk.output = zsyrk_output;
test_zsyrk.outchk = zsyrk_outchk;
test_zsyrk.fptr_desc = testing_zsyrk_desc;
- test_zsyrk.fptr_std = NULL;
+ test_zsyrk.fptr_std = testing_zsyrk_std;
test_zsyrk.next = NULL;
testing_register( &test_zsyrk );