/* ************************************************************************ * Copyright 2018-2021 Advanced Micro Devices, Inc. * * ************************************************************************ */ #pragma once #include "bytes.hpp" #include "cblas_interface.hpp" #include "flops.hpp" #include "near.hpp" #include "norm.hpp" #include "rocblas.hpp" #include "rocblas_datatype2string.hpp" #include "rocblas_init.hpp" #include "rocblas_math.hpp" #include "rocblas_random.hpp" #include "rocblas_test.hpp" #include "rocblas_vector.hpp" #include "unit.hpp" #include "utility.hpp" template void testing_hpmv_batched_bad_arg(const Arguments& arg) { auto rocblas_hpmv_batched_fn = arg.fortran ? rocblas_hpmv_batched : rocblas_hpmv_batched; const rocblas_int N = 100; const rocblas_int incx = 1; const rocblas_int incy = 1; const rocblas_int batch_count = 5; const T alpha = 0.5; const T beta = 2.0; const T zero = 0.0; const T one = 1.0; const rocblas_fill uplo = rocblas_fill_upper; rocblas_local_handle handle{arg}; size_t size_A = size_t(N); size_t size_x = N * size_t(incx); size_t size_y = N * size_t(incy); // allocate memory on device device_batch_vector dA(size_A, 1, batch_count); device_batch_vector dx(N, incx, batch_count); device_batch_vector dy(N, incy, batch_count); CHECK_DEVICE_ALLOCATION(dA.memcheck()); CHECK_DEVICE_ALLOCATION(dx.memcheck()); CHECK_DEVICE_ALLOCATION(dy.memcheck()); EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, &alpha, nullptr, dx.ptr_on_device(), incx, &beta, dy.ptr_on_device(), incy, batch_count), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, &alpha, dA.ptr_on_device(), nullptr, incx, &beta, dy.ptr_on_device(), incy, batch_count), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, &alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, &beta, nullptr, incy, batch_count), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, nullptr, dA.ptr_on_device(), dx.ptr_on_device(), incx, &beta, dy.ptr_on_device(), incy, batch_count), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, &alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, nullptr, dy.ptr_on_device(), incy, batch_count), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(nullptr, uplo, N, &alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, &beta, dy.ptr_on_device(), incy, batch_count), rocblas_status_invalid_handle); // If batch_count==0, then all pointers may be nullptr without error EXPECT_ROCBLAS_STATUS( rocblas_hpmv_batched_fn( handle, uplo, N, nullptr, nullptr, nullptr, incx, nullptr, nullptr, incy, 0), rocblas_status_success); // If N==0, then all pointers may be nullptr without error EXPECT_ROCBLAS_STATUS( rocblas_hpmv_batched_fn( handle, uplo, 0, nullptr, nullptr, nullptr, incx, nullptr, nullptr, incy, batch_count), rocblas_status_success); // If alpha==0, then A and x may be nullptr without error EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, &zero, nullptr, nullptr, incx, &beta, dy.ptr_on_device(), incy, batch_count), rocblas_status_success); // If alpha==0 && beta==1, then A, x and y may be nullptr without error EXPECT_ROCBLAS_STATUS( rocblas_hpmv_batched_fn( handle, uplo, N, &zero, nullptr, nullptr, incx, &one, nullptr, incy, batch_count), rocblas_status_success); } template void testing_hpmv_batched(const Arguments& arg) { auto rocblas_hpmv_batched_fn = arg.fortran ? rocblas_hpmv_batched : rocblas_hpmv_batched; rocblas_int N = arg.N; rocblas_int incx = arg.incx; rocblas_int incy = arg.incy; rocblas_int batch_count = arg.batch_count; T h_alpha = arg.get_alpha(); T h_beta = arg.get_beta(); rocblas_fill uplo = char2rocblas_fill(arg.uplo); rocblas_local_handle handle{arg}; // argument sanity check before allocating invalid memory bool invalid_size = N < 0 || !incx || !incy || batch_count < 0; if(invalid_size || !N || !batch_count) { EXPECT_ROCBLAS_STATUS(rocblas_hpmv_batched_fn(handle, uplo, N, nullptr, nullptr, nullptr, incx, nullptr, nullptr, incy, batch_count), invalid_size ? rocblas_status_invalid_size : rocblas_status_success); return; } size_t size_A = size_t(N * (N + 1)) / 2; size_t abs_incx = incx >= 0 ? incx : -incx; size_t abs_incy = incy >= 0 ? incy : -incy; size_t size_x = N * abs_incx; size_t size_y = N * abs_incy; // Naming: dK is in GPU (device) memory. hK is in CPU (host) memory host_batch_vector hA(size_A, 1, batch_count); host_batch_vector hx(N, incx, batch_count); host_batch_vector hy_1(N, incy, batch_count); host_batch_vector hy_2(N, incy, batch_count); host_batch_vector hy_gold(N, incy, batch_count); host_vector halpha(1); host_vector hbeta(1); CHECK_HIP_ERROR(hA.memcheck()); CHECK_HIP_ERROR(hx.memcheck()); CHECK_HIP_ERROR(hy_1.memcheck()); CHECK_HIP_ERROR(hy_2.memcheck()); CHECK_HIP_ERROR(hy_gold.memcheck()); CHECK_HIP_ERROR(halpha.memcheck()); CHECK_HIP_ERROR(hbeta.memcheck()); halpha[0] = h_alpha; hbeta[0] = h_beta; device_batch_vector dA(size_A, 1, batch_count); device_batch_vector dx(N, incx, batch_count); device_batch_vector dy_1(N, incy, batch_count); device_batch_vector dy_2(N, incy, batch_count); device_vector d_alpha(1); device_vector d_beta(1); CHECK_DEVICE_ALLOCATION(dA.memcheck()); CHECK_DEVICE_ALLOCATION(dx.memcheck()); CHECK_DEVICE_ALLOCATION(dy_1.memcheck()); CHECK_DEVICE_ALLOCATION(dy_2.memcheck()); CHECK_DEVICE_ALLOCATION(d_alpha.memcheck()); CHECK_DEVICE_ALLOCATION(d_beta.memcheck()); // Initialize data on host memory rocblas_init_vector(hA, arg, rocblas_client_alpha_sets_nan, true); rocblas_init_vector(hx, arg, rocblas_client_alpha_sets_nan, false, true); rocblas_init_vector(hy_1, arg, rocblas_client_beta_sets_nan); hy_gold.copy_from(hy_1); hy_2.copy_from(hy_1); CHECK_HIP_ERROR(dA.transfer_from(hA)); CHECK_HIP_ERROR(dx.transfer_from(hx)); CHECK_HIP_ERROR(dy_1.transfer_from(hy_1)); double gpu_time_used, cpu_time_used; double rocblas_error_1; double rocblas_error_2; /* ===================================================================== ROCBLAS =================================================================== */ if(arg.unit_check || arg.norm_check) { CHECK_HIP_ERROR(dy_1.transfer_from(hy_1)); CHECK_HIP_ERROR(dy_2.transfer_from(hy_2)); CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_host)); CHECK_ROCBLAS_ERROR(rocblas_hpmv_batched_fn(handle, uplo, N, &h_alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, &h_beta, dy_1.ptr_on_device(), incy, batch_count)); CHECK_HIP_ERROR(d_alpha.transfer_from(halpha)); CHECK_HIP_ERROR(d_beta.transfer_from(hbeta)); CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device)); CHECK_ROCBLAS_ERROR(rocblas_hpmv_batched_fn(handle, uplo, N, d_alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, d_beta, dy_2.ptr_on_device(), incy, batch_count)); // CPU BLAS cpu_time_used = get_time_us_no_sync(); for(int b = 0; b < batch_count; b++) cblas_hpmv(uplo, N, h_alpha, hA[b], hx[b], incx, h_beta, hy_gold[b], incy); cpu_time_used = get_time_us_no_sync() - cpu_time_used; // copy output from device to CPU CHECK_HIP_ERROR(hy_1.transfer_from(dy_1)); CHECK_HIP_ERROR(hy_2.transfer_from(dy_2)); if(arg.unit_check) { unit_check_general(1, N, abs_incy, hy_gold, hy_1, batch_count); unit_check_general(1, N, abs_incy, hy_gold, hy_2, batch_count); } if(arg.norm_check) { rocblas_error_1 = norm_check_general('F', 1, N, abs_incy, hy_gold, hy_1, batch_count); rocblas_error_2 = norm_check_general('F', 1, N, abs_incy, hy_gold, hy_2, batch_count); } } if(arg.timing) { int number_cold_calls = arg.cold_iters; int number_hot_calls = arg.iters; CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_host)); for(int iter = 0; iter < number_cold_calls; iter++) { rocblas_hpmv_batched_fn(handle, uplo, N, &h_alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, &h_beta, dy_1.ptr_on_device(), incy, batch_count); } hipStream_t stream; CHECK_ROCBLAS_ERROR(rocblas_get_stream(handle, &stream)); gpu_time_used = get_time_us_sync(stream); // in microseconds for(int iter = 0; iter < number_hot_calls; iter++) { rocblas_hpmv_batched_fn(handle, uplo, N, &h_alpha, dA.ptr_on_device(), dx.ptr_on_device(), incx, &h_beta, dy_1.ptr_on_device(), incy, batch_count); } gpu_time_used = get_time_us_sync(stream) - gpu_time_used; ArgumentModel{} .log_args(rocblas_cout, arg, gpu_time_used, hpmv_gflop_count(N), hpmv_gbyte_count(N), cpu_time_used, rocblas_error_1, rocblas_error_2); } }