test/gpu_common.h - external/gitlab.com/libeigen/eigen - Git at Google

 #ifndef EIGEN_TEST_GPU_COMMON_H
 #define EIGEN_TEST_GPU_COMMON_H

 #ifdef EIGEN_USE_HIP
 #include <hip/hip_runtime.h>
 #include <hip/hip_runtime_api.h>
 #else
 #include <cuda.h>
 #include <cuda_runtime.h>
 #include <cuda_runtime_api.h>
 #endif

 #include <iostream>

 #if !defined(__CUDACC__) && !defined(__HIPCC__)
 dim3 threadIdx, blockDim, blockIdx;
 #endif

 template <typename Kernel, typename Input, typename Output>
 void run_on_cpu(const Kernel& ker, int n, const Input& in, Output& out) {
   for (int i = 0; i < n; i++) ker(i, in.data(), out.data());
 }

 template <typename Kernel, typename Input, typename Output>
 __global__ EIGEN_HIP_LAUNCH_BOUNDS_1024 void run_on_gpu_meta_kernel(const Kernel ker, int n, const Input* in,
                                                                     Output* out) {
   int i = threadIdx.x + blockIdx.x * blockDim.x;
   if (i < n) {
     ker(i, in, out);
   }
 }

 template <typename Kernel, typename Input, typename Output>
 void run_on_gpu(const Kernel& ker, int n, const Input& in, Output& out) {
   typename Input::Scalar* d_in;
   typename Output::Scalar* d_out;
   std::ptrdiff_t in_bytes = in.size() * sizeof(typename Input::Scalar);
   std::ptrdiff_t out_bytes = out.size() * sizeof(typename Output::Scalar);

   gpuMalloc((void**)(&d_in), in_bytes);
   gpuMalloc((void**)(&d_out), out_bytes);

   gpuMemcpy(d_in, in.data(), in_bytes, gpuMemcpyHostToDevice);
   gpuMemcpy(d_out, out.data(), out_bytes, gpuMemcpyHostToDevice);

   // Simple and non-optimal 1D mapping assuming n is not too large
   // That's only for unit testing!
   dim3 Blocks(128);
   dim3 Grids((n + int(Blocks.x) - 1) / int(Blocks.x));

   gpuDeviceSynchronize();

 #ifdef EIGEN_USE_HIP
   hipLaunchKernelGGL(HIP_KERNEL_NAME(run_on_gpu_meta_kernel<Kernel, typename std::decay<decltype(*d_in)>::type,
                                                             typename std::decay<decltype(*d_out)>::type>),
                      dim3(Grids), dim3(Blocks), 0, 0, ker, n, d_in, d_out);
 #else
   // Various versions of clang-format incorrectly add spaces to the kernel launch brackets.
   // clang-format off
   run_on_gpu_meta_kernel<<<Grids, Blocks>>>(ker, n, d_in, d_out);
   // clang-format on
 #endif
   // Pre-launch errors.
   gpuError_t err = gpuGetLastError();
   if (err != gpuSuccess) {
     printf("%s: %s\n", gpuGetErrorName(err), gpuGetErrorString(err));
     gpu_assert(false);
   }

   // Kernel execution errors.
   err = gpuDeviceSynchronize();
   if (err != gpuSuccess) {
     printf("%s: %s\n", gpuGetErrorName(err), gpuGetErrorString(err));
     gpu_assert(false);
   }

   // check inputs have not been modified
   gpuMemcpy(const_cast<typename Input::Scalar*>(in.data()), d_in, in_bytes, gpuMemcpyDeviceToHost);
   gpuMemcpy(out.data(), d_out, out_bytes, gpuMemcpyDeviceToHost);

   gpuFree(d_in);
   gpuFree(d_out);
 }

 template <typename Kernel, typename Input, typename Output>
 void run_and_compare_to_gpu(const Kernel& ker, int n, const Input& in, Output& out) {
   Input in_ref, in_gpu;
   Output out_ref, out_gpu;
 #if !defined(EIGEN_GPU_COMPILE_PHASE)
   in_ref = in_gpu = in;
   out_ref = out_gpu = out;
 #else
   EIGEN_UNUSED_VARIABLE(in);
   EIGEN_UNUSED_VARIABLE(out);
 #endif
   run_on_cpu(ker, n, in_ref, out_ref);
   run_on_gpu(ker, n, in_gpu, out_gpu);
 #if !defined(EIGEN_GPU_COMPILE_PHASE)
   VERIFY_IS_APPROX(in_ref, in_gpu);
   VERIFY_IS_APPROX(out_ref, out_gpu);
 #endif
 }

 struct compile_time_device_info {
   EIGEN_DEVICE_FUNC void operator()(int i, const int* /*in*/, int* info) const {
     if (i == 0) {
       EIGEN_UNUSED_VARIABLE(info)
 #if defined(__CUDA_ARCH__)
       info[0] = int(__CUDA_ARCH__ + 0);
 #endif
 #if defined(EIGEN_HIP_DEVICE_COMPILE)
       info[1] = int(EIGEN_HIP_DEVICE_COMPILE + 0);
 #endif
     }
   }
 };

 void ei_test_init_gpu() {
   int device = 0;
   gpuDeviceProp_t deviceProp;
   gpuGetDeviceProperties(&deviceProp, device);

   ArrayXi dummy(1), info(10);
   info = -1;
   run_on_gpu(compile_time_device_info(), 10, dummy, info);

   std::cout << "GPU compile-time info:\n";

 #ifdef EIGEN_CUDACC
   std::cout << "  EIGEN_CUDACC:                 " << int(EIGEN_CUDACC) << "\n";
 #endif

 #ifdef EIGEN_CUDA_SDK_VER
   std::cout << "  EIGEN_CUDA_SDK_VER:             " << int(EIGEN_CUDA_SDK_VER) << "\n";
 #endif

 #if EIGEN_COMP_NVCC
   std::cout << "  EIGEN_COMP_NVCC:             " << int(EIGEN_COMP_NVCC) << "\n";
 #endif

 #ifdef EIGEN_HIPCC
   std::cout << "  EIGEN_HIPCC:                 " << int(EIGEN_HIPCC) << "\n";
 #endif

   std::cout << "  EIGEN_CUDA_ARCH:             " << info[0] << "\n";
   std::cout << "  EIGEN_HIP_DEVICE_COMPILE:    " << info[1] << "\n";

   std::cout << "GPU device info:\n";
   std::cout << "  name:                        " << deviceProp.name << "\n";
   std::cout << "  capability:                  " << deviceProp.major << "." << deviceProp.minor << "\n";
   std::cout << "  multiProcessorCount:         " << deviceProp.multiProcessorCount << "\n";
   std::cout << "  maxThreadsPerMultiProcessor: " << deviceProp.maxThreadsPerMultiProcessor << "\n";
   std::cout << "  warpSize:                    " << deviceProp.warpSize << "\n";
   std::cout << "  regsPerBlock:                " << deviceProp.regsPerBlock << "\n";
   std::cout << "  concurrentKernels:           " << deviceProp.concurrentKernels << "\n";
   std::cout << "  clockRate:                   " << deviceProp.clockRate << "\n";
   std::cout << "  canMapHostMemory:            " << deviceProp.canMapHostMemory << "\n";
   std::cout << "  computeMode:                 " << deviceProp.computeMode << "\n";
 }

 #endif  // EIGEN_TEST_GPU_COMMON_H
	#ifndef EIGEN_TEST_GPU_COMMON_H
	#define EIGEN_TEST_GPU_COMMON_H

	#ifdef EIGEN_USE_HIP
	#include <hip/hip_runtime.h>
	#include <hip/hip_runtime_api.h>
	#else
	#include <cuda.h>
	#include <cuda_runtime.h>
	#include <cuda_runtime_api.h>
	#endif

	#include <iostream>

	#if !defined(__CUDACC__) && !defined(__HIPCC__)
	dim3 threadIdx, blockDim, blockIdx;
	#endif

	template <typename Kernel, typename Input, typename Output>
	void run_on_cpu(const Kernel& ker, int n, const Input& in, Output& out) {
	for (int i = 0; i < n; i++) ker(i, in.data(), out.data());
	}

	template <typename Kernel, typename Input, typename Output>
	__global__ EIGEN_HIP_LAUNCH_BOUNDS_1024 void run_on_gpu_meta_kernel(const Kernel ker, int n, const Input* in,
	Output* out) {
	int i = threadIdx.x + blockIdx.x * blockDim.x;
	if (i < n) {
	ker(i, in, out);
	}
	}

	template <typename Kernel, typename Input, typename Output>
	void run_on_gpu(const Kernel& ker, int n, const Input& in, Output& out) {
	typename Input::Scalar* d_in;
	typename Output::Scalar* d_out;
	std::ptrdiff_t in_bytes = in.size() * sizeof(typename Input::Scalar);
	std::ptrdiff_t out_bytes = out.size() * sizeof(typename Output::Scalar);

	gpuMalloc((void**)(&d_in), in_bytes);
	gpuMalloc((void**)(&d_out), out_bytes);

	gpuMemcpy(d_in, in.data(), in_bytes, gpuMemcpyHostToDevice);
	gpuMemcpy(d_out, out.data(), out_bytes, gpuMemcpyHostToDevice);

	// Simple and non-optimal 1D mapping assuming n is not too large
	// That's only for unit testing!
	dim3 Blocks(128);
	dim3 Grids((n + int(Blocks.x) - 1) / int(Blocks.x));

	gpuDeviceSynchronize();

	#ifdef EIGEN_USE_HIP
	hipLaunchKernelGGL(HIP_KERNEL_NAME(run_on_gpu_meta_kernel<Kernel, typename std::decay<decltype(*d_in)>::type,
	typename std::decay<decltype(*d_out)>::type>),
	dim3(Grids), dim3(Blocks), 0, 0, ker, n, d_in, d_out);
	#else
	// Various versions of clang-format incorrectly add spaces to the kernel launch brackets.
	// clang-format off
	run_on_gpu_meta_kernel<<<Grids, Blocks>>>(ker, n, d_in, d_out);
	// clang-format on
	#endif
	// Pre-launch errors.
	gpuError_t err = gpuGetLastError();
	if (err != gpuSuccess) {
	printf("%s: %s\n", gpuGetErrorName(err), gpuGetErrorString(err));
	gpu_assert(false);
	}

	// Kernel execution errors.
	err = gpuDeviceSynchronize();
	if (err != gpuSuccess) {
	printf("%s: %s\n", gpuGetErrorName(err), gpuGetErrorString(err));
	gpu_assert(false);
	}

	// check inputs have not been modified
	gpuMemcpy(const_cast<typename Input::Scalar*>(in.data()), d_in, in_bytes, gpuMemcpyDeviceToHost);
	gpuMemcpy(out.data(), d_out, out_bytes, gpuMemcpyDeviceToHost);

	gpuFree(d_in);
	gpuFree(d_out);
	}

	template <typename Kernel, typename Input, typename Output>
	void run_and_compare_to_gpu(const Kernel& ker, int n, const Input& in, Output& out) {
	Input in_ref, in_gpu;
	Output out_ref, out_gpu;
	#if !defined(EIGEN_GPU_COMPILE_PHASE)
	in_ref = in_gpu = in;
	out_ref = out_gpu = out;
	#else
	EIGEN_UNUSED_VARIABLE(in);
	EIGEN_UNUSED_VARIABLE(out);
	#endif
	run_on_cpu(ker, n, in_ref, out_ref);
	run_on_gpu(ker, n, in_gpu, out_gpu);
	#if !defined(EIGEN_GPU_COMPILE_PHASE)
	VERIFY_IS_APPROX(in_ref, in_gpu);
	VERIFY_IS_APPROX(out_ref, out_gpu);
	#endif
	}

	struct compile_time_device_info {
	EIGEN_DEVICE_FUNC void operator()(int i, const int* /in/, int* info) const {
	if (i == 0) {
	EIGEN_UNUSED_VARIABLE(info)
	#if defined(__CUDA_ARCH__)
	info[0] = int(__CUDA_ARCH__ + 0);
	#endif
	#if defined(EIGEN_HIP_DEVICE_COMPILE)
	info[1] = int(EIGEN_HIP_DEVICE_COMPILE + 0);
	#endif
	}
	}
	};

	void ei_test_init_gpu() {
	int device = 0;
	gpuDeviceProp_t deviceProp;
	gpuGetDeviceProperties(&deviceProp, device);

	ArrayXi dummy(1), info(10);
	info = -1;
	run_on_gpu(compile_time_device_info(), 10, dummy, info);

	std::cout << "GPU compile-time info:\n";

	#ifdef EIGEN_CUDACC
	std::cout << " EIGEN_CUDACC: " << int(EIGEN_CUDACC) << "\n";
	#endif

	#ifdef EIGEN_CUDA_SDK_VER
	std::cout << " EIGEN_CUDA_SDK_VER: " << int(EIGEN_CUDA_SDK_VER) << "\n";
	#endif

	#if EIGEN_COMP_NVCC
	std::cout << " EIGEN_COMP_NVCC: " << int(EIGEN_COMP_NVCC) << "\n";
	#endif

	#ifdef EIGEN_HIPCC
	std::cout << " EIGEN_HIPCC: " << int(EIGEN_HIPCC) << "\n";
	#endif

	std::cout << " EIGEN_CUDA_ARCH: " << info[0] << "\n";
	std::cout << " EIGEN_HIP_DEVICE_COMPILE: " << info[1] << "\n";

	std::cout << "GPU device info:\n";
	std::cout << " name: " << deviceProp.name << "\n";
	std::cout << " capability: " << deviceProp.major << "." << deviceProp.minor << "\n";
	std::cout << " multiProcessorCount: " << deviceProp.multiProcessorCount << "\n";
	std::cout << " maxThreadsPerMultiProcessor: " << deviceProp.maxThreadsPerMultiProcessor << "\n";
	std::cout << " warpSize: " << deviceProp.warpSize << "\n";
	std::cout << " regsPerBlock: " << deviceProp.regsPerBlock << "\n";
	std::cout << " concurrentKernels: " << deviceProp.concurrentKernels << "\n";
	std::cout << " clockRate: " << deviceProp.clockRate << "\n";
	std::cout << " canMapHostMemory: " << deviceProp.canMapHostMemory << "\n";
	std::cout << " computeMode: " << deviceProp.computeMode << "\n";
	}

	#endif // EIGEN_TEST_GPU_COMMON_H