/* //////////////////////////////////////////////////////////////////////////// -- Testing cswap, cswapblk, claswp, claswpx */ int main( int argc, char** argv) { TESTING_INIT(); magmaFloatComplex *h_A1, *h_A2; magmaFloatComplex *h_R1, *h_R2; magmaFloatComplex_ptr d_A1, d_A2; // row-major and column-major performance real_Double_t row_perf0 = MAGMA_D_NAN, col_perf0 = MAGMA_D_NAN; real_Double_t row_perf1 = MAGMA_D_NAN, col_perf1 = MAGMA_D_NAN; real_Double_t row_perf2 = MAGMA_D_NAN, col_perf2 = MAGMA_D_NAN; real_Double_t row_perf4 = MAGMA_D_NAN; real_Double_t row_perf5 = MAGMA_D_NAN, col_perf5 = MAGMA_D_NAN; real_Double_t row_perf6 = MAGMA_D_NAN, col_perf6 = MAGMA_D_NAN; real_Double_t row_perf7 = MAGMA_D_NAN; real_Double_t cpu_perf = MAGMA_D_NAN; real_Double_t time, gbytes; magma_int_t N, lda, ldda, nb, j; magma_int_t ione = 1; magma_int_t *ipiv, *ipiv2; magmaInt_ptr d_ipiv; magma_int_t status = 0; magma_opts opts; parse_opts( argc, argv, &opts ); magma_queue_t queue = 0; printf(" %8s cswap cswap cswapblk claswp claswp2 claswpx ccopymatrix CPU (all in )\n", g_platform_str ); printf(" N nb row-maj/col-maj row-maj/col-maj row-maj/col-maj row-maj row-maj row-maj/col-maj row-blk/col-blk claswp (GByte/s)\n"); printf("=========================================================================================================================================\n"); for( int itest = 0; itest < opts.ntest; ++itest ) { for( int iter = 0; iter < opts.niter; ++iter ) { // For an N x N matrix, swap nb rows or nb columns using various methods. // Each test is assigned one bit in the 'check' bitmask; bit=1 indicates failure. // The variable 'shift' keeps track of which bit is for current test int shift = 1; int check = 0; N = opts.nsize[itest]; lda = N; ldda = ((N+31)/32)*32; nb = (opts.nb > 0 ? opts.nb : magma_get_cgetrf_nb( N )); nb = min( N, nb ); // each swap does 2N loads and 2N stores, for nb swaps gbytes = sizeof(magmaFloatComplex) * 4.*N*nb / 1e9; TESTING_MALLOC_PIN( h_A1, magmaFloatComplex, lda*N ); TESTING_MALLOC_PIN( h_A2, magmaFloatComplex, lda*N ); TESTING_MALLOC_PIN( h_R1, magmaFloatComplex, lda*N ); TESTING_MALLOC_PIN( h_R2, magmaFloatComplex, lda*N ); TESTING_MALLOC_CPU( ipiv, magma_int_t, nb ); TESTING_MALLOC_CPU( ipiv2, magma_int_t, nb ); TESTING_MALLOC_DEV( d_ipiv, magma_int_t, nb ); TESTING_MALLOC_DEV( d_A1, magmaFloatComplex, ldda*N ); TESTING_MALLOC_DEV( d_A2, magmaFloatComplex, ldda*N ); // getrf always makes ipiv[j] >= j+1, where ipiv is one based and j is zero based // some implementations (e.g., MacOS dlaswp) assume this for( j=0; j < nb; j++ ) { ipiv[j] = (rand() % (N-j)) + j + 1; assert( ipiv[j] >= j+1 ); assert( ipiv[j] <= N ); } /* ===================================================================== * cublas / clBLAS / Xeon Phi cswap, row-by-row (2 matrices) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { #ifdef HAVE_CUBLAS cublasCswap( opts.handle, N, d_A1+ldda*j, 1, d_A2+ldda*(ipiv[j]-1), 1 ); #else magma_cswap( N, d_A1, ldda*j, 1, d_A2, ldda*(ipiv[j]-1), 1, opts.queue ); #endif } } time = magma_sync_wtime( queue ) - time; row_perf0 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A2+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* Column Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { #ifdef HAVE_CUBLAS cublasCswap( opts.handle, N, d_A1+j, ldda, d_A2+ipiv[j]-1, ldda ); #else magma_cswap( N, d_A1, j, ldda, d_A2, ipiv[j]-1, ldda, opts.queue ); #endif } } time = magma_sync_wtime( queue ) - time; col_perf0 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+j, &lda, h_A2+(ipiv[j]-1), &lda); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* ===================================================================== * cswap, row-by-row (2 matrices) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { magmablas_cswap( N, d_A1+ldda*j, 1, d_A2+ldda*(ipiv[j]-1), 1); } } time = magma_sync_wtime( queue ) - time; row_perf1 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A2+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* Column Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { magmablas_cswap( N, d_A1+j, ldda, d_A2+ipiv[j]-1, ldda ); } } time = magma_sync_wtime( queue ) - time; col_perf1 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+j, &lda, h_A2+(ipiv[j]-1), &lda); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* ===================================================================== * cswapblk, blocked version (2 matrices) */ #ifdef HAVE_CUBLAS /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); magmablas_cswapblk( MagmaRowMajor, N, d_A1, ldda, d_A2, ldda, 1, nb, ipiv, 1, 0); time = magma_sync_wtime( queue ) - time; row_perf2 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A2+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* Column Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); magmablas_cswapblk( MagmaColMajor, N, d_A1, ldda, d_A2, ldda, 1, nb, ipiv, 1, 0); time = magma_sync_wtime( queue ) - time; col_perf2 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+j, &lda, h_A2+(ipiv[j]-1), &lda); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; #endif /* ===================================================================== * LAPACK-style claswp (1 matrix) */ #ifdef HAVE_CUBLAS /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_claswp( N, d_A1, ldda, 1, nb, ipiv, 1); time = magma_sync_wtime( queue ) - time; row_perf4 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; #endif /* ===================================================================== * LAPACK-style claswp (1 matrix) - d_ipiv on GPU */ #ifdef HAVE_CUBLAS /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magma_setvector( nb, sizeof(magma_int_t), ipiv, 1, d_ipiv, 1 ); magmablas_claswp2( N, d_A1, ldda, 1, nb, d_ipiv, 1 ); time = magma_sync_wtime( queue ) - time; row_perf7 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; #endif /* ===================================================================== * LAPACK-style claswpx (extended for row- and col-major) (1 matrix) */ #ifdef HAVE_CUBLAS /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_claswpx( N, d_A1, ldda, 1, 1, nb, ipiv, 1); time = magma_sync_wtime( queue ) - time; row_perf5 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; /* Col Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_claswpx( N, d_A1, 1, ldda, 1, nb, ipiv, 1); time = magma_sync_wtime( queue ) - time; col_perf5 = gbytes / time; #endif /* LAPACK swap on CPU for comparison */ time = magma_wtime(); lapackf77_claswp( &N, h_A1, &lda, &ione, &nb, ipiv, &ione); time = magma_wtime() - time; cpu_perf = gbytes / time; #ifdef HAVE_CUBLAS magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; #endif /* ===================================================================== * Copy matrix. */ time = magma_sync_wtime( queue ); magma_ccopymatrix( N, nb, d_A1, ldda, d_A2, ldda ); time = magma_sync_wtime( queue ) - time; // copy reads 1 matrix and writes 1 matrix, so has half gbytes of swap col_perf6 = 0.5 * gbytes / time; time = magma_sync_wtime( queue ); magma_ccopymatrix( nb, N, d_A1, ldda, d_A2, ldda ); time = magma_sync_wtime( queue ) - time; // copy reads 1 matrix and writes 1 matrix, so has half gbytes of swap row_perf6 = 0.5 * gbytes / time; printf("%5d %3d %6.2f%c/ %6.2f%c %6.2f%c/ %6.2f%c %6.2f%c/ %6.2f%c %6.2f%c %6.2f%c %6.2f%c/ %6.2f%c %6.2f / %6.2f %6.2f %10s\n", (int) N, (int) nb, row_perf0, ((check & 0x001) != 0 ? '*' : ' '), col_perf0, ((check & 0x002) != 0 ? '*' : ' '), row_perf1, ((check & 0x004) != 0 ? '*' : ' '), col_perf1, ((check & 0x008) != 0 ? '*' : ' '), row_perf2, ((check & 0x010) != 0 ? '*' : ' '), col_perf2, ((check & 0x020) != 0 ? '*' : ' '), row_perf4, ((check & 0x040) != 0 ? '*' : ' '), row_perf7, ((check & 0x080) != 0 ? '*' : ' '), row_perf5, ((check & 0x100) != 0 ? '*' : ' '), col_perf5, ((check & 0x200) != 0 ? '*' : ' '), row_perf6, col_perf6, cpu_perf, (check == 0 ? "ok" : "* failed") ); status += ! (check == 0); TESTING_FREE_PIN( h_A1 ); TESTING_FREE_PIN( h_A2 ); TESTING_FREE_PIN( h_R1 ); TESTING_FREE_PIN( h_R2 ); TESTING_FREE_CPU( ipiv ); TESTING_FREE_CPU( ipiv2 ); TESTING_FREE_DEV( d_ipiv ); TESTING_FREE_DEV( d_A1 ); TESTING_FREE_DEV( d_A2 ); fflush( stdout ); } if ( opts.niter > 1 ) { printf( "\n" ); } } TESTING_FINALIZE(); return status; }
/* //////////////////////////////////////////////////////////////////////////// -- Testing cswap, cswapblk, cpermute, claswp, claswpx */ int main( int argc, char** argv) { TESTING_INIT(); magmaFloatComplex *h_A1, *h_A2; magmaFloatComplex *d_A1, *d_A2; magmaFloatComplex *h_R1, *h_R2; // row-major and column-major performance real_Double_t row_perf0, col_perf0; real_Double_t row_perf1, col_perf1; real_Double_t row_perf2, col_perf2; real_Double_t row_perf3; real_Double_t row_perf4; real_Double_t row_perf5, col_perf5; real_Double_t row_perf6, col_perf6; real_Double_t row_perf7; real_Double_t cpu_perf; real_Double_t time, gbytes; magma_int_t N, lda, ldda, nb, j; magma_int_t ione = 1; magma_int_t *ipiv, *ipiv2; magma_int_t *d_ipiv; magma_int_t status = 0; magma_opts opts; parse_opts( argc, argv, &opts ); magma_queue_t queue = 0; printf(" cublasCswap cswap cswapblk claswp cpermute claswp2 claswpx ccopymatrix CPU (all in )\n"); printf(" N nb row-maj/col-maj row-maj/col-maj row-maj/col-maj row-maj row-maj row-maj row-maj/col-maj row-blk/col-blk claswp (GByte/s)\n"); printf("==================================================================================================================================================\n"); for( int itest = 0; itest < opts.ntest; ++itest ) { for( int iter = 0; iter < opts.niter; ++iter ) { // For an N x N matrix, swap nb rows or nb columns using various methods. // Each test is assigned one bit in the 'check' bitmask; bit=1 indicates failure. // The variable 'shift' keeps track of which bit is for current test int shift = 1; int check = 0; N = opts.nsize[itest]; lda = N; ldda = ((N+31)/32)*32; nb = (opts.nb > 0 ? opts.nb : magma_get_cgetrf_nb( N )); nb = min( N, nb ); // each swap does 2N loads and 2N stores, for nb swaps gbytes = sizeof(magmaFloatComplex) * 4.*N*nb / 1e9; TESTING_MALLOC_PIN( h_A1, magmaFloatComplex, lda*N ); TESTING_MALLOC_PIN( h_A2, magmaFloatComplex, lda*N ); TESTING_MALLOC_PIN( h_R1, magmaFloatComplex, lda*N ); TESTING_MALLOC_PIN( h_R2, magmaFloatComplex, lda*N ); TESTING_MALLOC_CPU( ipiv, magma_int_t, nb ); TESTING_MALLOC_CPU( ipiv2, magma_int_t, nb ); TESTING_MALLOC_DEV( d_ipiv, magma_int_t, nb ); TESTING_MALLOC_DEV( d_A1, magmaFloatComplex, ldda*N ); TESTING_MALLOC_DEV( d_A2, magmaFloatComplex, ldda*N ); for( j=0; j < nb; j++ ) { ipiv[j] = (magma_int_t) ((rand()*1.*N) / (RAND_MAX * 1.)) + 1; } /* ===================================================================== * cublasCswap, row-by-row (2 matrices) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { cublasCswap( N, d_A1+ldda*j, 1, d_A2+ldda*(ipiv[j]-1), 1); } } time = magma_sync_wtime( queue ) - time; row_perf0 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A2+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* Column Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { cublasCswap( N, d_A1+j, ldda, d_A2+ipiv[j]-1, ldda); } } time = magma_sync_wtime( queue ) - time; col_perf0 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+j, &lda, h_A2+(ipiv[j]-1), &lda); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* ===================================================================== * cswap, row-by-row (2 matrices) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { magmablas_cswap( N, d_A1+ldda*j, 1, d_A2+ldda*(ipiv[j]-1), 1); } } time = magma_sync_wtime( queue ) - time; row_perf1 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A2+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* Column Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { magmablas_cswap( N, d_A1+j, ldda, d_A2+ipiv[j]-1, ldda ); } } time = magma_sync_wtime( queue ) - time; col_perf1 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+j, &lda, h_A2+(ipiv[j]-1), &lda); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* ===================================================================== * cswapblk, blocked version (2 matrices) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); magmablas_cswapblk( MagmaRowMajor, N, d_A1, ldda, d_A2, ldda, 1, nb, ipiv, 1, 0); time = magma_sync_wtime( queue ) - time; row_perf2 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A2+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* Column Major */ init_matrix( N, N, h_A1, lda, 0 ); init_matrix( N, N, h_A2, lda, 100 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); magma_csetmatrix( N, N, h_A2, lda, d_A2, ldda ); time = magma_sync_wtime( queue ); magmablas_cswapblk( MagmaColMajor, N, d_A1, ldda, d_A2, ldda, 1, nb, ipiv, 1, 0); time = magma_sync_wtime( queue ) - time; col_perf2 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+j, &lda, h_A2+(ipiv[j]-1), &lda); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); magma_cgetmatrix( N, N, d_A2, ldda, h_R2, lda ); check += (diff_matrix( N, N, h_A1, lda, h_R1, lda ) || diff_matrix( N, N, h_A2, lda, h_R2, lda ))*shift; shift *= 2; /* ===================================================================== * cpermute_long (1 matrix) */ /* Row Major */ memcpy( ipiv2, ipiv, nb*sizeof(magma_int_t) ); // cpermute updates ipiv2 init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_cpermute_long2( N, d_A1, ldda, ipiv2, nb, 0 ); time = magma_sync_wtime( queue ) - time; row_perf3 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; /* ===================================================================== * LAPACK-style claswp (1 matrix) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_claswp( N, d_A1, ldda, 1, nb, ipiv, 1); time = magma_sync_wtime( queue ) - time; row_perf4 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; /* ===================================================================== * LAPACK-style claswp (1 matrix) - d_ipiv on GPU */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magma_setvector( nb, sizeof(magma_int_t), ipiv, 1, d_ipiv, 1 ); magmablas_claswp2( N, d_A1, ldda, 1, nb, d_ipiv, 1 ); time = magma_sync_wtime( queue ) - time; row_perf7 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; /* ===================================================================== * LAPACK-style claswpx (extended for row- and col-major) (1 matrix) */ /* Row Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_claswpx( N, d_A1, ldda, 1, 1, nb, ipiv, 1); time = magma_sync_wtime( queue ) - time; row_perf5 = gbytes / time; for( j=0; j < nb; j++) { if ( j != (ipiv[j]-1)) { blasf77_cswap( &N, h_A1+lda*j, &ione, h_A1+lda*(ipiv[j]-1), &ione); } } magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; /* Col Major */ init_matrix( N, N, h_A1, lda, 0 ); magma_csetmatrix( N, N, h_A1, lda, d_A1, ldda ); time = magma_sync_wtime( queue ); magmablas_claswpx( N, d_A1, 1, ldda, 1, nb, ipiv, 1); time = magma_sync_wtime( queue ) - time; col_perf5 = gbytes / time; time = magma_wtime(); lapackf77_claswp( &N, h_A1, &lda, &ione, &nb, ipiv, &ione); time = magma_wtime() - time; cpu_perf = gbytes / time; magma_cgetmatrix( N, N, d_A1, ldda, h_R1, lda ); check += diff_matrix( N, N, h_A1, lda, h_R1, lda )*shift; shift *= 2; /* ===================================================================== * Copy matrix. */ time = magma_sync_wtime( queue ); magma_ccopymatrix( N, nb, d_A1, ldda, d_A2, ldda ); time = magma_sync_wtime( queue ) - time; // copy reads 1 matrix and writes 1 matrix, so has half gbytes of swap col_perf6 = 0.5 * gbytes / time; time = magma_sync_wtime( queue ); magma_ccopymatrix( nb, N, d_A1, ldda, d_A2, ldda ); time = magma_sync_wtime( queue ) - time; // copy reads 1 matrix and writes 1 matrix, so has half gbytes of swap row_perf6 = 0.5 * gbytes / time; printf("%5d %3d %6.2f%c/ %6.2f%c %6.2f%c/ %6.2f%c %6.2f%c/ %6.2f%c %6.2f%c %6.2f%c %6.2f%c %6.2f%c/ %6.2f%c %6.2f / %6.2f %6.2f %10s\n", (int) N, (int) nb, row_perf0, ((check & 0x001) != 0 ? '*' : ' '), col_perf0, ((check & 0x002) != 0 ? '*' : ' '), row_perf1, ((check & 0x004) != 0 ? '*' : ' '), col_perf1, ((check & 0x008) != 0 ? '*' : ' '), row_perf2, ((check & 0x010) != 0 ? '*' : ' '), col_perf2, ((check & 0x020) != 0 ? '*' : ' '), row_perf3, ((check & 0x040) != 0 ? '*' : ' '), row_perf4, ((check & 0x080) != 0 ? '*' : ' '), row_perf7, ((check & 0x100) != 0 ? '*' : ' '), row_perf5, ((check & 0x200) != 0 ? '*' : ' '), col_perf5, ((check & 0x400) != 0 ? '*' : ' '), row_perf6, col_perf6, cpu_perf, (check == 0 ? "ok" : "* failed") ); status += ! (check == 0); TESTING_FREE_PIN( h_A1 ); TESTING_FREE_PIN( h_A2 ); TESTING_FREE_PIN( h_R1 ); TESTING_FREE_PIN( h_R2 ); TESTING_FREE_CPU( ipiv ); TESTING_FREE_CPU( ipiv2 ); TESTING_FREE_DEV( d_ipiv ); TESTING_FREE_DEV( d_A1 ); TESTING_FREE_DEV( d_A2 ); fflush( stdout ); } if ( opts.niter > 1 ) { printf( "\n" ); } } TESTING_FINALIZE(); return status; }