TiborGY
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cpp_thread_test/dgemv_thread_safety.cpp
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| #include <iostream> | |||
| #include <vector> | |||
| #include <random> | |||
| #include <future> | |||
| #include <omp.h> | |||
| #include "../cblas.h" | |||
| #include "cpp_thread_safety_common.h" | |||
| void launch_cblas_dgemv(double* A, double* x, double* y, const blasint randomMatSize){ | |||
| const blasint inc = 1; | |||
| cblas_dgemv(CblasColMajor, CblasNoTrans, randomMatSize, randomMatSize, 1.0, A, randomMatSize, x, inc, 0.1, y, inc); | |||
| } | |||
| int main(int argc, char* argv[]){ | |||
| blasint randomMatSize = 1024; //dimension of the random square matrices and vectors being used | |||
| uint32_t numConcurrentThreads = 52; //number of concurrent calls of the functions being tested | |||
| uint32_t numTestRounds = 16; //number of testing rounds before success exit | |||
| if (argc > 4){ | |||
| std::cout<<"ERROR: too many arguments for thread safety tester"<<std::endl; | |||
| abort(); | |||
| } | |||
| if(argc == 4){ | |||
| std::vector<std::string> cliArgs; | |||
| for (int i = 1; i < argc; i++){ | |||
| cliArgs.push_back(argv[i]); | |||
| std::cout<<argv[i]<<std::endl; | |||
| } | |||
| randomMatSize = std::stoul(cliArgs.at(0)); | |||
| numConcurrentThreads = std::stoul(cliArgs.at(1)); | |||
| numTestRounds = std::stoul(cliArgs.at(2)); | |||
| } | |||
| std::uniform_real_distribution<double> rngdist{-1.0, 1.0}; | |||
| std::vector<std::vector<double>> matBlock(numConcurrentThreads); | |||
| std::vector<std::vector<double>> vecBlock(numConcurrentThreads*2); | |||
| std::vector<std::future<void>> futureBlock(numConcurrentThreads); | |||
| std::cout<<"*----------------------------*\n"; | |||
| std::cout<<"| DGEMV thread safety tester |\n"; | |||
| std::cout<<"*----------------------------*\n"; | |||
| std::cout<<"Size of random matrices and vectors(N=M): "<<randomMatSize<<'\n'; | |||
| std::cout<<"Number of concurrent calls into OpenBLAS : "<<numConcurrentThreads<<'\n'; | |||
| std::cout<<"Number of testing rounds : "<<numTestRounds<<'\n'; | |||
| std::cout<<"This test will need "<<((static_cast<uint64_t>(randomMatSize*randomMatSize)*numConcurrentThreads*8)+(static_cast<uint64_t>(randomMatSize)*numConcurrentThreads*8*2))/static_cast<double>(1024*1024)<<" MiB of RAM\n"<<std::endl; | |||
| std::cout<<"Initializing random number generator..."<<std::flush; | |||
| std::mt19937_64 PRNG = InitPRNG(); | |||
| std::cout<<"done\n"; | |||
| std::cout<<"Preparing to test CBLAS DGEMV thread safety\n"; | |||
| std::cout<<"Allocating matrices..."<<std::flush; | |||
| for(uint32_t i=0; i<numConcurrentThreads; i++){ | |||
| matBlock.at(i).resize(randomMatSize*randomMatSize); | |||
| } | |||
| std::cout<<"done\n"; | |||
| std::cout<<"Allocating vectors..."<<std::flush; | |||
| for(uint32_t i=0; i<(numConcurrentThreads*2); i++){ | |||
| vecBlock.at(i).resize(randomMatSize); | |||
| } | |||
| std::cout<<"done\n"; | |||
| //pauser(); | |||
| std::cout<<"Filling matrices with random numbers..."<<std::flush; | |||
| FillMatrices(matBlock, PRNG, rngdist, randomMatSize, numConcurrentThreads, 1); | |||
| //PrintMatrices(matBlock, randomMatSize, numConcurrentThreads); | |||
| std::cout<<"done\n"; | |||
| std::cout<<"Filling vectors with random numbers..."<<std::flush; | |||
| FillVectors(vecBlock, PRNG, rngdist, randomMatSize, numConcurrentThreads, 2); | |||
| std::cout<<"done\n"; | |||
| std::cout<<"Testing CBLAS DGEMV thread safety"<<std::endl; | |||
| omp_set_num_threads(numConcurrentThreads); | |||
| for(uint32_t R=0; R<numTestRounds; R++){ | |||
| std::cout<<"DGEMV round #"<<R<<std::endl; | |||
| std::cout<<"Launching "<<numConcurrentThreads<<" threads simultaneously using OpenMP..."<<std::flush; | |||
| #pragma omp parallel for default(none) shared(futureBlock, matBlock, vecBlock, randomMatSize, numConcurrentThreads) | |||
| for(uint32_t i=0; i<numConcurrentThreads; i++){ | |||
| futureBlock[i] = std::async(std::launch::async, launch_cblas_dgemv, &matBlock[i][0], &vecBlock[i*2][0], &vecBlock[i*2+1][0], randomMatSize); | |||
| } | |||
| std::cout<<"done\n"; | |||
| std::cout<<"Waiting for threads to finish..."<<std::flush; | |||
| for(uint32_t i=0; i<numConcurrentThreads; i++){ | |||
| futureBlock[i].get(); | |||
| } | |||
| std::cout<<"done\n"; | |||
| std::cout<<"Comparing results from different threads..."<<std::flush; | |||
| for(uint32_t i=2; i<(numConcurrentThreads*2); i+=2){ //i is the index of vector x, for a given thread | |||
| for(uint32_t j=0; j<randomMatSize; j++){ | |||
| if (std::abs(vecBlock[i+1][j] - vecBlock[1][j]) > 1.0E-13){ //i+1 is the index of vector y, for a given thread | |||
| std::cout<<"ERROR: one of the threads returned a different result! Index : "<<i+1<<std::endl; | |||
| std::cout<<"CBLAS DGEMV thread safety test FAILED!"<<std::endl; | |||
| return -1; | |||
| } | |||
| } | |||
| } | |||
| std::cout<<"OK!"<<std::endl; | |||
| } | |||
| std::cout<<"CBLAS DGEMV thread safety test PASSED!"<<std::endl; | |||
| return 0; | |||
| } | |||