bench/tensors/tensor_benchmarks_cpu.cc - mirror - Git at Google

 #define EIGEN_USE_THREADS

 #include <string>

 #include "tensor_benchmarks.h"

 #define CREATE_THREAD_POOL(threads) \
   Eigen::ThreadPool pool(threads);  \
   Eigen::ThreadPoolDevice device(&pool, threads);

 // Simple functions
 #define BM_FuncCPU(FUNC, THREADS)                                    \
   static void BM_##FUNC##_##THREADS##T(int iters, int N) {           \
     StopBenchmarkTiming();                                           \
     CREATE_THREAD_POOL(THREADS);                                     \
     BenchmarkSuite<Eigen::ThreadPoolDevice, float> suite(device, N); \
     suite.FUNC(iters);                                               \
   }                                                                  \
   BENCHMARK_RANGE(BM_##FUNC##_##THREADS##T, 10, 5000);

 BM_FuncCPU(memcpy, 4);
 BM_FuncCPU(memcpy, 8);
 BM_FuncCPU(memcpy, 12);

 BM_FuncCPU(typeCasting, 4);
 BM_FuncCPU(typeCasting, 8);
 BM_FuncCPU(typeCasting, 12);

 BM_FuncCPU(random, 4);
 BM_FuncCPU(random, 8);
 BM_FuncCPU(random, 12);

 BM_FuncCPU(slicing, 4);
 BM_FuncCPU(slicing, 8);
 BM_FuncCPU(slicing, 12);

 BM_FuncCPU(rowChip, 4);
 BM_FuncCPU(rowChip, 8);
 BM_FuncCPU(rowChip, 12);

 BM_FuncCPU(colChip, 4);
 BM_FuncCPU(colChip, 8);
 BM_FuncCPU(colChip, 12);

 BM_FuncCPU(shuffling, 4);
 BM_FuncCPU(shuffling, 8);
 BM_FuncCPU(shuffling, 12);

 BM_FuncCPU(padding, 4);
 BM_FuncCPU(padding, 8);
 BM_FuncCPU(padding, 12);

 BM_FuncCPU(striding, 4);
 BM_FuncCPU(striding, 8);
 BM_FuncCPU(striding, 12);

 BM_FuncCPU(broadcasting, 4);
 BM_FuncCPU(broadcasting, 8);
 BM_FuncCPU(broadcasting, 12);

 BM_FuncCPU(coeffWiseOp, 4);
 BM_FuncCPU(coeffWiseOp, 8);
 BM_FuncCPU(coeffWiseOp, 12);

 BM_FuncCPU(algebraicFunc, 4);
 BM_FuncCPU(algebraicFunc, 8);
 BM_FuncCPU(algebraicFunc, 12);

 BM_FuncCPU(transcendentalFunc, 4);
 BM_FuncCPU(transcendentalFunc, 8);
 BM_FuncCPU(transcendentalFunc, 12);

 BM_FuncCPU(rowReduction, 4);
 BM_FuncCPU(rowReduction, 8);
 BM_FuncCPU(rowReduction, 12);

 BM_FuncCPU(colReduction, 4);
 BM_FuncCPU(colReduction, 8);
 BM_FuncCPU(colReduction, 12);

 // Contractions
 #define BM_FuncWithInputDimsCPU(FUNC, D1, D2, D3, THREADS)                      \
   static void BM_##FUNC##_##D1##x##D2##x##D3##_##THREADS##T(int iters, int N) { \
     StopBenchmarkTiming();                                                      \
     if (THREADS == 1) {                                                         \
       Eigen::DefaultDevice device;                                              \
       BenchmarkSuite<Eigen::DefaultDevice, float> suite(device, D1, D2, D3);    \
       suite.FUNC(iters);                                                        \
     } else {                                                                    \
       CREATE_THREAD_POOL(THREADS);                                              \
       BenchmarkSuite<Eigen::ThreadPoolDevice, float> suite(device, D1, D2, D3); \
       suite.FUNC(iters);                                                        \
     }                                                                           \
   }                                                                             \
   BENCHMARK_RANGE(BM_##FUNC##_##D1##x##D2##x##D3##_##THREADS##T, 10, 5000);

 BM_FuncWithInputDimsCPU(contraction, N, N, N, 1);
 BM_FuncWithInputDimsCPU(contraction, N, N, N, 4);
 BM_FuncWithInputDimsCPU(contraction, N, N, N, 8);
 BM_FuncWithInputDimsCPU(contraction, N, N, N, 12);
 BM_FuncWithInputDimsCPU(contraction, N, N, N, 16);

 BM_FuncWithInputDimsCPU(contraction, 64, N, N, 1);
 BM_FuncWithInputDimsCPU(contraction, 64, N, N, 4);
 BM_FuncWithInputDimsCPU(contraction, 64, N, N, 8);
 BM_FuncWithInputDimsCPU(contraction, 64, N, N, 12);
 BM_FuncWithInputDimsCPU(contraction, 64, N, N, 16);

 BM_FuncWithInputDimsCPU(contraction, N, 64, N, 1);
 BM_FuncWithInputDimsCPU(contraction, N, 64, N, 4);
 BM_FuncWithInputDimsCPU(contraction, N, 64, N, 8);
 BM_FuncWithInputDimsCPU(contraction, N, 64, N, 12);
 BM_FuncWithInputDimsCPU(contraction, N, 64, N, 16);

 BM_FuncWithInputDimsCPU(contraction, N, N, 64, 1);
 BM_FuncWithInputDimsCPU(contraction, N, N, 64, 4);
 BM_FuncWithInputDimsCPU(contraction, N, N, 64, 8);
 BM_FuncWithInputDimsCPU(contraction, N, N, 64, 12);
 BM_FuncWithInputDimsCPU(contraction, N, N, 64, 16);

 BM_FuncWithInputDimsCPU(contraction, 1, N, N, 1);
 BM_FuncWithInputDimsCPU(contraction, 1, N, N, 4);
 BM_FuncWithInputDimsCPU(contraction, 1, N, N, 8);
 BM_FuncWithInputDimsCPU(contraction, 1, N, N, 12);
 BM_FuncWithInputDimsCPU(contraction, 1, N, N, 16);

 BM_FuncWithInputDimsCPU(contraction, N, N, 1, 1);
 BM_FuncWithInputDimsCPU(contraction, N, N, 1, 4);
 BM_FuncWithInputDimsCPU(contraction, N, N, 1, 8);
 BM_FuncWithInputDimsCPU(contraction, N, N, 1, 12);
 BM_FuncWithInputDimsCPU(contraction, N, N, 1, 16);

 // Convolutions
 #define BM_FuncWithKernelDimsCPU(FUNC, DIM1, DIM2, THREADS)                  \
   static void BM_##FUNC##_##DIM1##x##DIM2##_##THREADS##T(int iters, int N) { \
     StopBenchmarkTiming();                                                   \
     CREATE_THREAD_POOL(THREADS);                                             \
     BenchmarkSuite<Eigen::ThreadPoolDevice, float> suite(device, N);         \
     suite.FUNC(iters, DIM1, DIM2);                                           \
   }                                                                          \
   BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2##_##THREADS##T, 128, 5000);

 BM_FuncWithKernelDimsCPU(convolution, 7, 1, 4);
 BM_FuncWithKernelDimsCPU(convolution, 7, 1, 8);
 BM_FuncWithKernelDimsCPU(convolution, 7, 1, 12);

 BM_FuncWithKernelDimsCPU(convolution, 1, 7, 4);
 BM_FuncWithKernelDimsCPU(convolution, 1, 7, 8);
 BM_FuncWithKernelDimsCPU(convolution, 1, 7, 12);

 BM_FuncWithKernelDimsCPU(convolution, 7, 4, 4);
 BM_FuncWithKernelDimsCPU(convolution, 7, 4, 8);
 BM_FuncWithKernelDimsCPU(convolution, 7, 4, 12);

 BM_FuncWithKernelDimsCPU(convolution, 4, 7, 4);
 BM_FuncWithKernelDimsCPU(convolution, 4, 7, 8);
 BM_FuncWithKernelDimsCPU(convolution, 4, 7, 12);

 BM_FuncWithKernelDimsCPU(convolution, 7, 64, 4);
 BM_FuncWithKernelDimsCPU(convolution, 7, 64, 8);
 BM_FuncWithKernelDimsCPU(convolution, 7, 64, 12);

 BM_FuncWithKernelDimsCPU(convolution, 64, 7, 4);
 BM_FuncWithKernelDimsCPU(convolution, 64, 7, 8);
 BM_FuncWithKernelDimsCPU(convolution, 64, 7, 12);
	#define EIGEN_USE_THREADS

	#include <string>

	#include "tensor_benchmarks.h"

	#define CREATE_THREAD_POOL(threads) \
	Eigen::ThreadPool pool(threads); \
	Eigen::ThreadPoolDevice device(&pool, threads);

	// Simple functions
	#define BM_FuncCPU(FUNC, THREADS) \
	static void BM_##FUNC##_##THREADS##T(int iters, int N) { \
	StopBenchmarkTiming(); \
	CREATE_THREAD_POOL(THREADS); \
	BenchmarkSuite<Eigen::ThreadPoolDevice, float> suite(device, N); \
	suite.FUNC(iters); \
	} \
	BENCHMARK_RANGE(BM_##FUNC##_##THREADS##T, 10, 5000);

	BM_FuncCPU(memcpy, 4);
	BM_FuncCPU(memcpy, 8);
	BM_FuncCPU(memcpy, 12);

	BM_FuncCPU(typeCasting, 4);
	BM_FuncCPU(typeCasting, 8);
	BM_FuncCPU(typeCasting, 12);

	BM_FuncCPU(random, 4);
	BM_FuncCPU(random, 8);
	BM_FuncCPU(random, 12);

	BM_FuncCPU(slicing, 4);
	BM_FuncCPU(slicing, 8);
	BM_FuncCPU(slicing, 12);

	BM_FuncCPU(rowChip, 4);
	BM_FuncCPU(rowChip, 8);
	BM_FuncCPU(rowChip, 12);

	BM_FuncCPU(colChip, 4);
	BM_FuncCPU(colChip, 8);
	BM_FuncCPU(colChip, 12);

	BM_FuncCPU(shuffling, 4);
	BM_FuncCPU(shuffling, 8);
	BM_FuncCPU(shuffling, 12);

	BM_FuncCPU(padding, 4);
	BM_FuncCPU(padding, 8);
	BM_FuncCPU(padding, 12);

	BM_FuncCPU(striding, 4);
	BM_FuncCPU(striding, 8);
	BM_FuncCPU(striding, 12);

	BM_FuncCPU(broadcasting, 4);
	BM_FuncCPU(broadcasting, 8);
	BM_FuncCPU(broadcasting, 12);

	BM_FuncCPU(coeffWiseOp, 4);
	BM_FuncCPU(coeffWiseOp, 8);
	BM_FuncCPU(coeffWiseOp, 12);

	BM_FuncCPU(algebraicFunc, 4);
	BM_FuncCPU(algebraicFunc, 8);
	BM_FuncCPU(algebraicFunc, 12);

	BM_FuncCPU(transcendentalFunc, 4);
	BM_FuncCPU(transcendentalFunc, 8);
	BM_FuncCPU(transcendentalFunc, 12);

	BM_FuncCPU(rowReduction, 4);
	BM_FuncCPU(rowReduction, 8);
	BM_FuncCPU(rowReduction, 12);

	BM_FuncCPU(colReduction, 4);
	BM_FuncCPU(colReduction, 8);
	BM_FuncCPU(colReduction, 12);

	// Contractions
	#define BM_FuncWithInputDimsCPU(FUNC, D1, D2, D3, THREADS) \
	static void BM_##FUNC##_##D1##x##D2##x##D3##_##THREADS##T(int iters, int N) { \
	StopBenchmarkTiming(); \
	if (THREADS == 1) { \
	Eigen::DefaultDevice device; \
	BenchmarkSuite<Eigen::DefaultDevice, float> suite(device, D1, D2, D3); \
	suite.FUNC(iters); \
	} else { \
	CREATE_THREAD_POOL(THREADS); \
	BenchmarkSuite<Eigen::ThreadPoolDevice, float> suite(device, D1, D2, D3); \
	suite.FUNC(iters); \
	} \
	} \
	BENCHMARK_RANGE(BM_##FUNC##_##D1##x##D2##x##D3##_##THREADS##T, 10, 5000);

	BM_FuncWithInputDimsCPU(contraction, N, N, N, 1);
	BM_FuncWithInputDimsCPU(contraction, N, N, N, 4);
	BM_FuncWithInputDimsCPU(contraction, N, N, N, 8);
	BM_FuncWithInputDimsCPU(contraction, N, N, N, 12);
	BM_FuncWithInputDimsCPU(contraction, N, N, N, 16);

	BM_FuncWithInputDimsCPU(contraction, 64, N, N, 1);
	BM_FuncWithInputDimsCPU(contraction, 64, N, N, 4);
	BM_FuncWithInputDimsCPU(contraction, 64, N, N, 8);
	BM_FuncWithInputDimsCPU(contraction, 64, N, N, 12);
	BM_FuncWithInputDimsCPU(contraction, 64, N, N, 16);

	BM_FuncWithInputDimsCPU(contraction, N, 64, N, 1);
	BM_FuncWithInputDimsCPU(contraction, N, 64, N, 4);
	BM_FuncWithInputDimsCPU(contraction, N, 64, N, 8);
	BM_FuncWithInputDimsCPU(contraction, N, 64, N, 12);
	BM_FuncWithInputDimsCPU(contraction, N, 64, N, 16);

	BM_FuncWithInputDimsCPU(contraction, N, N, 64, 1);
	BM_FuncWithInputDimsCPU(contraction, N, N, 64, 4);
	BM_FuncWithInputDimsCPU(contraction, N, N, 64, 8);
	BM_FuncWithInputDimsCPU(contraction, N, N, 64, 12);
	BM_FuncWithInputDimsCPU(contraction, N, N, 64, 16);

	BM_FuncWithInputDimsCPU(contraction, 1, N, N, 1);
	BM_FuncWithInputDimsCPU(contraction, 1, N, N, 4);
	BM_FuncWithInputDimsCPU(contraction, 1, N, N, 8);
	BM_FuncWithInputDimsCPU(contraction, 1, N, N, 12);
	BM_FuncWithInputDimsCPU(contraction, 1, N, N, 16);

	BM_FuncWithInputDimsCPU(contraction, N, N, 1, 1);
	BM_FuncWithInputDimsCPU(contraction, N, N, 1, 4);
	BM_FuncWithInputDimsCPU(contraction, N, N, 1, 8);
	BM_FuncWithInputDimsCPU(contraction, N, N, 1, 12);
	BM_FuncWithInputDimsCPU(contraction, N, N, 1, 16);

	// Convolutions
	#define BM_FuncWithKernelDimsCPU(FUNC, DIM1, DIM2, THREADS) \
	static void BM_##FUNC##_##DIM1##x##DIM2##_##THREADS##T(int iters, int N) { \
	StopBenchmarkTiming(); \
	CREATE_THREAD_POOL(THREADS); \
	BenchmarkSuite<Eigen::ThreadPoolDevice, float> suite(device, N); \
	suite.FUNC(iters, DIM1, DIM2); \
	} \
	BENCHMARK_RANGE(BM_##FUNC##_##DIM1##x##DIM2##_##THREADS##T, 128, 5000);

	BM_FuncWithKernelDimsCPU(convolution, 7, 1, 4);
	BM_FuncWithKernelDimsCPU(convolution, 7, 1, 8);
	BM_FuncWithKernelDimsCPU(convolution, 7, 1, 12);

	BM_FuncWithKernelDimsCPU(convolution, 1, 7, 4);
	BM_FuncWithKernelDimsCPU(convolution, 1, 7, 8);
	BM_FuncWithKernelDimsCPU(convolution, 1, 7, 12);

	BM_FuncWithKernelDimsCPU(convolution, 7, 4, 4);
	BM_FuncWithKernelDimsCPU(convolution, 7, 4, 8);
	BM_FuncWithKernelDimsCPU(convolution, 7, 4, 12);

	BM_FuncWithKernelDimsCPU(convolution, 4, 7, 4);
	BM_FuncWithKernelDimsCPU(convolution, 4, 7, 8);
	BM_FuncWithKernelDimsCPU(convolution, 4, 7, 12);

	BM_FuncWithKernelDimsCPU(convolution, 7, 64, 4);
	BM_FuncWithKernelDimsCPU(convolution, 7, 64, 8);
	BM_FuncWithKernelDimsCPU(convolution, 7, 64, 12);

	BM_FuncWithKernelDimsCPU(convolution, 64, 7, 4);
	BM_FuncWithKernelDimsCPU(convolution, 64, 7, 8);
	BM_FuncWithKernelDimsCPU(convolution, 64, 7, 12);