2013-11-05 22:41:45 +08:00
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#ifndef EIGEN_TEST_CUDA_COMMON_H
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#define EIGEN_TEST_CUDA_COMMON_H
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#include <cuda.h>
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#include <cuda_runtime.h>
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#include <cuda_runtime_api.h>
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#include <iostream>
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#ifndef __CUDACC__
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dim3 threadIdx, blockDim, blockIdx;
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#endif
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template<typename Kernel, typename Input, typename Output>
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void run_on_cpu(const Kernel& ker, int n, const Input& in, Output& out)
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{
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for(int i=0; i<n; i++)
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ker(i, in.data(), out.data());
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}
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template<typename Kernel, typename Input, typename Output>
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__global__
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void run_on_cuda_meta_kernel(const Kernel ker, int n, const Input* in, Output* out)
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{
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int i = threadIdx.x + blockIdx.x*blockDim.x;
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if(i<n) {
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ker(i, in, out);
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}
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}
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template<typename Kernel, typename Input, typename Output>
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void run_on_cuda(const Kernel& ker, int n, const Input& in, Output& out)
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{
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typename Input::Scalar* d_in;
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typename Output::Scalar* d_out;
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std::ptrdiff_t in_bytes = in.size() * sizeof(typename Input::Scalar);
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std::ptrdiff_t out_bytes = out.size() * sizeof(typename Output::Scalar);
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cudaMalloc((void**)(&d_in), in_bytes);
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cudaMalloc((void**)(&d_out), out_bytes);
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cudaMemcpy(d_in, in.data(), in_bytes, cudaMemcpyHostToDevice);
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cudaMemcpy(d_out, out.data(), out_bytes, cudaMemcpyHostToDevice);
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// Simple and non-optimal 1D mapping assuming n is not too large
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// That's only for unit testing!
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dim3 Blocks(128);
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dim3 Grids( (n+int(Blocks.x)-1)/int(Blocks.x) );
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cudaThreadSynchronize();
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run_on_cuda_meta_kernel<<<Grids,Blocks>>>(ker, n, d_in, d_out);
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cudaThreadSynchronize();
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// check inputs have not been modified
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cudaMemcpy(const_cast<typename Input::Scalar*>(in.data()), d_in, in_bytes, cudaMemcpyDeviceToHost);
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cudaMemcpy(out.data(), d_out, out_bytes, cudaMemcpyDeviceToHost);
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cudaFree(d_in);
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cudaFree(d_out);
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}
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template<typename Kernel, typename Input, typename Output>
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void run_and_compare_to_cuda(const Kernel& ker, int n, const Input& in, Output& out)
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{
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Input in_ref, in_cuda;
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Output out_ref, out_cuda;
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#ifndef __CUDA_ARCH__
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in_ref = in_cuda = in;
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out_ref = out_cuda = out;
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#endif
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run_on_cpu (ker, n, in_ref, out_ref);
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run_on_cuda(ker, n, in_cuda, out_cuda);
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#ifndef __CUDA_ARCH__
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VERIFY_IS_APPROX(in_ref, in_cuda);
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VERIFY_IS_APPROX(out_ref, out_cuda);
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#endif
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}
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void ei_test_init_cuda()
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{
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int device = 0;
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cudaDeviceProp deviceProp;
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cudaGetDeviceProperties(&deviceProp, device);
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std::cout << "CUDA device info:\n";
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2014-01-24 19:51:33 +08:00
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std::cout << " name: " << deviceProp.name << "\n";
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2013-11-05 22:41:45 +08:00
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std::cout << " capability: " << deviceProp.major << "." << deviceProp.minor << "\n";
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std::cout << " multiProcessorCount: " << deviceProp.multiProcessorCount << "\n";
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std::cout << " maxThreadsPerMultiProcessor: " << deviceProp.maxThreadsPerMultiProcessor << "\n";
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2014-01-24 19:51:33 +08:00
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std::cout << " warpSize: " << deviceProp.warpSize << "\n";
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2013-11-05 22:41:45 +08:00
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std::cout << " regsPerBlock: " << deviceProp.regsPerBlock << "\n";
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std::cout << " concurrentKernels: " << deviceProp.concurrentKernels << "\n";
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std::cout << " clockRate: " << deviceProp.clockRate << "\n";
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2014-01-24 19:51:33 +08:00
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std::cout << " canMapHostMemory: " << deviceProp.canMapHostMemory << "\n";
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2013-11-05 22:41:45 +08:00
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std::cout << " computeMode: " << deviceProp.computeMode << "\n";
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}
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#endif // EIGEN_TEST_CUDA_COMMON_H
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