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OpenBLAS/cpp_thread_test/dgemm_thread_safety.cpp

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  1. #include <iostream>

  2. #include <vector>

  3. #include <random>

  4. #include <future>

  5. #include <omp.h>

  6. #include "/opt/OpenBLAS_zen_serial/include/cblas.h"

  7. 

  8. const blasint randomMatSize = 1024; //dimension of the random square matrices used

  9. const uint32_t numConcurrentThreads = 52; //number of concurrent calls of the functions being tested

  10. const uint32_t numTestRounds = 8; //number of testing rounds before success exit

  11. 

  12. inline void pauser(){

  13.     /// a portable way to pause a program

  14.     std::string dummy;

  15.     std::cout << "Press enter to continue...";

  16.     std::getline(std::cin, dummy);

  17. }

  18. 

  19. void launch_cblas_dgemm(double* A, double* B, double* C){

  20. 	cblas_dgemm(CblasColMajor, CblasNoTrans, CblasNoTrans, randomMatSize, randomMatSize, randomMatSize, 1.0, A, randomMatSize, B, randomMatSize, 0.1, C, randomMatSize);

  21. }

  22. 

  23. void FillMatrices(std::vector<std::vector<double>>& matBlock, std::mt19937_64& PRNG, std::uniform_real_distribution<double>& rngdist){

  24. 	for(uint32_t i=0; i<3; i++){

  25. 		for(uint32_t j=0; j<(randomMatSize*randomMatSize); j++){

  26. 			matBlock[i][j] = rngdist(PRNG);

  27. 		}

  28. 	}

  29. 	for(uint32_t i=3; i<(numConcurrentThreads*3); i+=3){

  30. 			matBlock[i] = matBlock[0];

  31. 			matBlock[i+1] = matBlock[1];

  32. 			matBlock[i+2] = matBlock[2];

  33. 	}

  34. }

  35. 

  36. std::mt19937_64 InitPRNG(){

  37. 	std::random_device rd;

  38. 	std::mt19937_64 PRNG(rd()); //seed PRNG using /dev/urandom or similar OS provided RNG

  39. 	std::uniform_real_distribution<double> rngdist{-1.0, 1.0};

  40. 	//make sure the internal state of the PRNG is properly mixed by generating 10M random numbers

  41. 	//PRNGs often have unreliable distribution uniformity and other statistical properties before their internal state is sufficiently mixed

  42. 	for (uint32_t i=0;i<10000000;i++) rngdist(PRNG);

  43. 	return PRNG;

  44. }

  45. 

  46. void PrintMatrices(const std::vector<std::vector<double>>& matBlock){

  47. 	for (uint32_t i=0;i<numConcurrentThreads*3;i++){

  48. 		std::cout<<i<<std::endl;

  49. 		for (uint32_t j=0;j<randomMatSize;j++){

  50. 			for (uint32_t k=0;k<randomMatSize;k++){

  51. 				std::cout<<matBlock[i][j*randomMatSize + k]<<"  ";

  52. 			}

  53. 			std::cout<<std::endl;

  54. 		}

  55. 		std::cout<<std::endl;

  56. 	}

  57. }

  58. 

  59. int main(){

  60. 	std::uniform_real_distribution<double> rngdist{-1.0, 1.0};

  61. 	std::vector<std::vector<double>> matBlock(numConcurrentThreads*3);

  62. 	std::vector<std::future<void>> futureBlock(numConcurrentThreads);

  63. 	

  64. 	std::cout<<"*----------------------------*\n";

  65. 	std::cout<<"| DGEMM thread safety tester |\n";

  66. 	std::cout<<"*----------------------------*\n";

  67. 	std::cout<<"Size of random matrices(N=M=K): "<<randomMatSize<<'\n';

  68. 	std::cout<<"Number of concurrent calls into OpenBLAS : "<<numConcurrentThreads<<'\n';

  69. 	std::cout<<"Number of testing rounds : "<<numTestRounds<<'\n';

  70. 	std::cout<<"This test will need "<<(static_cast<uint64_t>(randomMatSize*randomMatSize)*numConcurrentThreads*3*8)/static_cast<double>(1024*1024)<<" MiB of RAM\n"<<std::endl;

  71. 	

  72. 	std::cout<<"Initializing random number generator..."<<std::flush;

  73. 	std::mt19937_64 PRNG = InitPRNG();

  74. 	std::cout<<"done\n";

  75. 	

  76. 	std::cout<<"Preparing to test CBLAS DGEMM thread safety\n";

  77. 	std::cout<<"Allocating matrices..."<<std::flush;

  78. 	for(uint32_t i=0; i<(numConcurrentThreads*3); i++){

  79. 		matBlock[i].resize(randomMatSize*randomMatSize);

  80. 	}

  81. 	std::cout<<"done\n";

  82. 	//pauser();

  83. 	std::cout<<"Filling matrices with random numbers..."<<std::flush;

  84. 	FillMatrices(matBlock, PRNG, rngdist);

  85. 	//PrintMatrices(matBlock);

  86. 	std::cout<<"done\n";

  87. 	std::cout<<"Testing CBLAS DGEMM thread safety\n";

  88. 	omp_set_num_threads(numConcurrentThreads);

  89. 	for(uint32_t R=0; R<numTestRounds; R++){

  90. 		std::cout<<"DGEMM round #"<<R<<std::endl;

  91. 		std::cout<<"Launching "<<numConcurrentThreads<<" threads..."<<std::flush;

  92. 		#pragma omp parallel for default(none) shared(futureBlock, matBlock)

  93. 		for(uint32_t i=0; i<numConcurrentThreads; i++){

  94. 			futureBlock[i] = std::async(std::launch::async, launch_cblas_dgemm, &matBlock[i*3][0], &matBlock[i*3+1][0], &matBlock[i*3+2][0]);

  95. 			//launch_cblas_dgemm( &matBlock[i][0], &matBlock[i+1][0], &matBlock[i+2][0]);

  96. 		}

  97. 		std::cout<<"done\n";

  98. 		std::cout<<"Waiting for threads to finish..."<<std::flush;

  99. 		for(uint32_t i=0; i<numConcurrentThreads; i++){

  100. 			futureBlock[i].get();

  101. 		}

  102. 		std::cout<<"done\n";

  103. 		//PrintMatrices(matBlock);

  104. 		std::cout<<"Comparing results from different threads..."<<std::flush;

  105. 		for(uint32_t i=3; i<(numConcurrentThreads*3); i+=3){

  106. 			for(uint32_t j=0; j<(randomMatSize*randomMatSize); j++){

  107. 				if (std::abs(matBlock[i+2][j] - matBlock[2][j]) > 1.0E-13){

  108. 					std::cout<<"ERROR: one of the threads returned a different result!"<<i+2<<std::endl;

  109. 					std::cout<<"CBLAS DGEMM thread safety test FAILED!"<<std::endl;

  110. 					return -1;

  111. 				}

  112. 			}

  113. 		}

  114. 		std::cout<<"OK!"<<std::endl;

  115. 	}

  116. 	std::cout<<"CBLAS DGEMM thread safety test PASSED!"<<std::endl;

  117. 	return 0;

  118. }