/* ************************************************************************ * Copyright 2018-2021 Advanced Micro Devices, Inc. * ************************************************************************ */ #pragma once #include "cblas_interface.hpp" #include "norm.hpp" #include "rocblas.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_rot_batched_ex_bad_arg(const Arguments& arg) { auto rocblas_rot_batched_ex_fn = arg.fortran ? rocblas_rot_batched_ex_fortran : rocblas_rot_batched_ex; rocblas_datatype x_type = rocblas_datatype_f32_r; rocblas_datatype y_type = rocblas_datatype_f32_r; rocblas_datatype cs_type = rocblas_datatype_f32_r; rocblas_datatype execution_type = rocblas_datatype_f32_r; rocblas_int N = 100; rocblas_int incx = 1; rocblas_int incy = 1; rocblas_int batch_count = 5; rocblas_local_handle handle{arg}; device_batch_vector dx(N, incx, batch_count); device_batch_vector dy(N, incy, batch_count); device_vector dc(1); device_vector ds(1); CHECK_DEVICE_ALLOCATION(dx.memcheck()); CHECK_DEVICE_ALLOCATION(dy.memcheck()); CHECK_DEVICE_ALLOCATION(dc.memcheck()); CHECK_DEVICE_ALLOCATION(ds.memcheck()); EXPECT_ROCBLAS_STATUS((rocblas_rot_batched_ex_fn(nullptr, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, dc, ds, cs_type, batch_count, execution_type)), rocblas_status_invalid_handle); EXPECT_ROCBLAS_STATUS((rocblas_rot_batched_ex_fn(handle, N, nullptr, x_type, incx, dy.ptr_on_device(), y_type, incy, dc, ds, cs_type, batch_count, execution_type)), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS((rocblas_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, nullptr, y_type, incy, dc, ds, cs_type, batch_count, execution_type)), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS((rocblas_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, nullptr, ds, cs_type, batch_count, execution_type)), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS((rocblas_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, dc, nullptr, cs_type, batch_count, execution_type)), rocblas_status_invalid_pointer); } template void testing_rot_batched_ex(const Arguments& arg) { auto rocblas_rot_batched_ex_fn = arg.fortran ? rocblas_rot_batched_ex_fortran : rocblas_rot_batched_ex; rocblas_datatype x_type = arg.a_type; rocblas_datatype y_type = arg.b_type; rocblas_datatype cs_type = arg.c_type; rocblas_datatype execution_type = arg.compute_type; rocblas_int N = arg.N; rocblas_int incx = arg.incx; rocblas_int incy = arg.incy; rocblas_int batch_count = arg.batch_count; rocblas_local_handle handle{arg}; double gpu_time_used, cpu_time_used; double norm_error_host_x = 0.0, norm_error_host_y = 0.0, norm_error_device_x = 0.0, norm_error_device_y = 0.0; // check to prevent undefined memory allocation error if(N <= 0 || batch_count <= 0) { CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device)); CHECK_ROCBLAS_ERROR((rocblas_rot_batched_ex_fn(handle, N, nullptr, x_type, incx, nullptr, y_type, incy, nullptr, nullptr, cs_type, batch_count, execution_type))); return; } rocblas_int abs_incx = incx >= 0 ? incx : -incx; rocblas_int abs_incy = incy >= 0 ? incy : -incy; size_t size_x = N * size_t(abs_incx); size_t size_y = N * size_t(abs_incy); device_batch_vector dx(N, incx, batch_count); device_batch_vector dy(N, incy, batch_count); device_vector dc(1); device_vector ds(1); CHECK_DEVICE_ALLOCATION(dx.memcheck()); CHECK_DEVICE_ALLOCATION(dy.memcheck()); CHECK_DEVICE_ALLOCATION(dc.memcheck()); CHECK_DEVICE_ALLOCATION(ds.memcheck()); // Initial Data on CPU host_batch_vector hx(N, incx, batch_count); host_batch_vector hy(N, incy, batch_count); host_vector hc(1); host_vector hs(1); if(rocblas_isnan(arg.alpha)) { rocblas_init_nan(hx, true); rocblas_init_nan(hy, false); } else { rocblas_init(hx, true); rocblas_init(hy, false); } rocblas_init(hc, 1, 1, 1); rocblas_init(hs, 1, 1, 1); // CPU BLAS reference data host_batch_vector cx(N, incx, batch_count); host_batch_vector cy(N, incy, batch_count); cx.copy_from(hx); cy.copy_from(hy); // cblas_rotg(cx, cy, hc, hs); // cx[0] = hx[0]; // cy[0] = hy[0]; cpu_time_used = get_time_us_no_sync(); for(int b = 0; b < batch_count; b++) { cblas_rot(N, cx[b], incx, cy[b], incy, hc, hs); } cpu_time_used = get_time_us_no_sync() - cpu_time_used; if(arg.unit_check || arg.norm_check) { // Test rocblas_pointer_mode_host { CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_host)); CHECK_HIP_ERROR(dx.transfer_from(hx)); CHECK_HIP_ERROR(dy.transfer_from(hy)); CHECK_ROCBLAS_ERROR((rocblas_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, hc, hs, cs_type, batch_count, execution_type))); host_batch_vector rx(N, incx, batch_count); host_batch_vector ry(N, incy, batch_count); CHECK_HIP_ERROR(rx.transfer_from(dx)); CHECK_HIP_ERROR(ry.transfer_from(dy)); if(arg.unit_check) { unit_check_general(1, N, abs_incx, cx, rx, batch_count); unit_check_general(1, N, abs_incy, cy, ry, batch_count); } if(arg.norm_check) { norm_error_host_x = norm_check_general('F', 1, N, abs_incx, cx, rx, batch_count); norm_error_host_y = norm_check_general('F', 1, N, abs_incy, cy, ry, batch_count); } } // Test rocblas_pointer_mode_device { CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device)); CHECK_HIP_ERROR(dx.transfer_from(hx)); CHECK_HIP_ERROR(dy.transfer_from(hy)); CHECK_HIP_ERROR(dc.transfer_from(hc)); CHECK_HIP_ERROR(ds.transfer_from(hs)); CHECK_ROCBLAS_ERROR((rocblas_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, dc, ds, cs_type, batch_count, execution_type))); host_batch_vector rx(N, incx, batch_count); host_batch_vector ry(N, incy, batch_count); CHECK_HIP_ERROR(rx.transfer_from(dx)); CHECK_HIP_ERROR(ry.transfer_from(dy)); if(arg.unit_check) { unit_check_general(1, N, abs_incx, cx, rx, batch_count); unit_check_general(1, N, abs_incy, cy, ry, batch_count); } if(arg.norm_check) { norm_error_device_x = norm_check_general('F', 1, N, abs_incx, cx, rx, batch_count); norm_error_device_y = norm_check_general('F', 1, N, abs_incy, cy, ry, 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_device)); CHECK_HIP_ERROR(dx.transfer_from(hx)); CHECK_HIP_ERROR(dy.transfer_from(hy)); CHECK_HIP_ERROR(dc.transfer_from(hc)); CHECK_HIP_ERROR(ds.transfer_from(hs)); for(int iter = 0; iter < number_cold_calls; iter++) { rocblas_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, dc, ds, cs_type, batch_count, execution_type); } 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_rot_batched_ex_fn(handle, N, dx.ptr_on_device(), x_type, incx, dy.ptr_on_device(), y_type, incy, dc, ds, cs_type, batch_count, execution_type); } gpu_time_used = get_time_us_sync(stream) - gpu_time_used; ArgumentModel{}.log_args( rocblas_cout, arg, gpu_time_used, rot_gflop_count(N), rot_gbyte_count(N), cpu_time_used, norm_error_host_x, norm_error_device_x, norm_error_host_y, norm_error_device_y); } }