/* ************************************************************************ * Copyright 2018-2019 Advanced Micro Devices, Inc. * ************************************************************************ */ #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_rotm_strided_batched_bad_arg(const Arguments& arg) { rocblas_int N = 100; rocblas_int incx = 1; rocblas_stride stride_x = 1; rocblas_int incy = 1; rocblas_stride stride_y = 1; rocblas_stride stride_param = 1; rocblas_int batch_count = 5; static const size_t safe_size = 100; rocblas_local_handle handle; device_vector dx(safe_size); device_vector dy(safe_size); device_vector dparam(safe_size); if(!dx || !dy || !dparam) { CHECK_HIP_ERROR(hipErrorOutOfMemory); return; } EXPECT_ROCBLAS_STATUS( (rocblas_rotm_strided_batched( nullptr, N, dx, incx, stride_x, dy, incy, stride_y, dparam, stride_param, batch_count)), rocblas_status_invalid_handle); EXPECT_ROCBLAS_STATUS((rocblas_rotm_strided_batched(handle, N, nullptr, incx, stride_x, dy, incy, stride_y, dparam, stride_param, batch_count)), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS((rocblas_rotm_strided_batched(handle, N, dx, incx, stride_x, nullptr, incy, stride_y, dparam, stride_param, batch_count)), rocblas_status_invalid_pointer); EXPECT_ROCBLAS_STATUS( (rocblas_rotm_strided_batched( handle, N, dx, incx, stride_x, dy, incy, stride_y, nullptr, stride_param, batch_count)), rocblas_status_invalid_pointer); } template void testing_rotm_strided_batched(const Arguments& arg) { rocblas_int N = arg.N; rocblas_int incx = arg.incx; rocblas_int stride_x = arg.stride_x; rocblas_int stride_y = arg.stride_y; rocblas_int stride_param = arg.stride_c; rocblas_int incy = arg.incy; rocblas_int batch_count = arg.batch_count; rocblas_local_handle handle; 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; const T rel_error = std::numeric_limits::epsilon() * 1000; // check to prevent undefined memory allocation error if(N <= 0 || incx <= 0 || incy <= 0 || batch_count <= 0) { static const size_t safe_size = 100; // arbitrarily set to 100 device_vector dx(safe_size); device_vector dy(safe_size); device_vector dparam(safe_size); if(!dx || !dy || !dparam) { CHECK_HIP_ERROR(hipErrorOutOfMemory); return; } CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device)); EXPECT_ROCBLAS_STATUS((rocblas_rotm_strided_batched(handle, N, dx, incx, stride_x, dy, incy, stride_y, dparam, stride_param, batch_count)), batch_count < 0 ? rocblas_status_invalid_size : rocblas_status_success); return; } size_t size_x = N * size_t(incx) + size_t(stride_x) * size_t(batch_count - 1); size_t size_y = N * size_t(incy) + size_t(stride_y) * size_t(batch_count - 1); size_t size_param = 5 + size_t(stride_param) * size_t(batch_count - 1); device_vector dx(size_x); device_vector dy(size_y); device_vector dparam(size_param); if(!dx || !dy || !dparam) { CHECK_HIP_ERROR(hipErrorOutOfMemory); return; } // Initial Data on CPU host_vector hx(size_x); host_vector hy(size_y); host_vector hdata(4 * batch_count); host_vector hparam(size_param); rocblas_seedrand(); rocblas_init(hx, 1, N, incx, stride_x, batch_count); rocblas_init(hy, 1, N, incy, stride_y, batch_count); rocblas_init(hdata, 1, 4, 1, 4, batch_count); // CPU BLAS reference data for(int b = 0; b < batch_count; b++) cblas_rotmg(hdata + b * 4, hdata + b * 4 + 1, hdata + b * 4 + 2, hdata + b * 4 + 3, hparam + b * stride_param); constexpr int FLAG_COUNT = 4; const T FLAGS[FLAG_COUNT] = {-1, 0, 1, -2}; for(int i = 0; i < FLAG_COUNT; i++) { for(int b = 0; b < batch_count; b++) (hparam + b * stride_param)[0] = FLAGS[i]; host_vector cx = hx; host_vector cy = hy; cpu_time_used = get_time_us(); for(int b = 0; b < batch_count; b++) { cblas_rotm( N, cx + b * stride_x, incx, cy + b * stride_y, incy, hparam + b * stride_param); } cpu_time_used = get_time_us() - cpu_time_used; if(arg.unit_check || arg.norm_check) { // Test rocblas_pointer_mode_host // TODO: THIS IS NO LONGER SUPPORTED // { // CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_host)); // CHECK_HIP_ERROR(hipMemcpy(dx, hx, sizeof(T) * size_x, hipMemcpyHostToDevice)); // CHECK_HIP_ERROR(hipMemcpy(dy, hy, sizeof(T) * size_y, hipMemcpyHostToDevice)); // CHECK_ROCBLAS_ERROR((rocblas_rotm_strided_batched( // handle, N, dx, incx, stride_x, dy, incy, stride_y, hparam, batch_count))); // host_vector rx(size_x); // host_vector ry(size_y); // CHECK_HIP_ERROR(hipMemcpy(rx, dx, sizeof(T) * size_x, hipMemcpyDeviceToHost)); // CHECK_HIP_ERROR(hipMemcpy(ry, dy, sizeof(T) * size_y, hipMemcpyDeviceToHost)); // if(arg.unit_check) // { // T rel_error = std::numeric_limits::epsilon() * 1000; // near_check_general(1, N, batch_count, incx, stride_x, cx, rx, rel_error); // near_check_general(1, N, batch_count, incy, stride_y, cy, ry, rel_error); // } // if(arg.norm_check) // { // norm_error_host_x // = norm_check_general('F', 1, N, incx, stride_x, batch_count, cx, rx); // norm_error_host_y // = norm_check_general('F', 1, N, incy, stride_x, batch_count, cy, ry); // } // } // Test rocblas_pointer_mode_device { CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device)); CHECK_HIP_ERROR(hipMemcpy(dx, hx, sizeof(T) * size_x, hipMemcpyHostToDevice)); CHECK_HIP_ERROR(hipMemcpy(dy, hy, sizeof(T) * size_y, hipMemcpyHostToDevice)); CHECK_HIP_ERROR( hipMemcpy(dparam, hparam, sizeof(T) * size_param, hipMemcpyHostToDevice)); CHECK_ROCBLAS_ERROR((rocblas_rotm_strided_batched(handle, N, dx, incx, stride_x, dy, incy, stride_y, dparam, stride_param, batch_count))); host_vector rx(size_x); host_vector ry(size_y); CHECK_HIP_ERROR(hipMemcpy(rx, dx, sizeof(T) * size_x, hipMemcpyDeviceToHost)); CHECK_HIP_ERROR(hipMemcpy(ry, dy, sizeof(T) * size_y, hipMemcpyDeviceToHost)); if(arg.unit_check) { near_check_general(1, N, batch_count, incx, stride_x, cx, rx, rel_error); near_check_general(1, N, batch_count, incy, stride_y, cy, ry, rel_error); } if(arg.norm_check) { norm_error_device_x = norm_check_general('F', 1, N, incx, stride_x, batch_count, cx, rx); norm_error_device_y = norm_check_general('F', 1, N, incy, stride_y, batch_count, cy, ry); } } } if(arg.timing) { int number_cold_calls = 2; int number_hot_calls = 100; CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device)); CHECK_HIP_ERROR(hipMemcpy(dx, hx, sizeof(T) * size_x, hipMemcpyHostToDevice)); CHECK_HIP_ERROR(hipMemcpy(dy, hy, sizeof(T) * size_y, hipMemcpyHostToDevice)); CHECK_HIP_ERROR( hipMemcpy(dparam, hparam, sizeof(T) * size_param, hipMemcpyHostToDevice)); for(int iter = 0; iter < number_cold_calls; iter++) { rocblas_rotm_strided_batched(handle, N, dx, incx, stride_x, dy, incy, stride_y, dparam, stride_param, batch_count); } gpu_time_used = get_time_us(); // in microseconds for(int iter = 0; iter < number_hot_calls; iter++) { rocblas_rotm_strided_batched(handle, N, dx, incx, stride_x, dy, incy, stride_y, dparam, stride_param, batch_count); } gpu_time_used = (get_time_us() - gpu_time_used) / number_hot_calls; std::cout << "N,incx,incy,rocblas(us),cpu(us)"; if(arg.norm_check) std::cout << ",norm_error_host_x,norm_error_host_y,norm_error_device_x,norm_error_" "device_y"; std::cout << std::endl; std::cout << N << "," << incx << "," << incy << "," << gpu_time_used << "," << cpu_time_used; if(arg.norm_check) std::cout << ',' << norm_error_host_x << ',' << norm_error_host_y << "," << norm_error_device_x << "," << norm_error_device_y; std::cout << std::endl; } } }