bench/perf_monitoring/lazy_gemm.cpp - mirror - Git at Google

 #include <iostream>
 #include <fstream>
 #include <vector>
 #include <Eigen/Core>
 #include "../../BenchTimer.h"
 using namespace Eigen;

 #ifndef SCALAR
 #error SCALAR must be defined
 #endif

 typedef SCALAR Scalar;

 template<typename MatA, typename MatB, typename MatC>
 EIGEN_DONT_INLINE
 void lazy_gemm(const MatA &A, const MatB &B, MatC &C)
 {
 //   escape((void*)A.data());
 //   escape((void*)B.data());
   C.noalias() += A.lazyProduct(B);
 //   escape((void*)C.data());
 }

 template<int m, int n, int k, int TA>
 EIGEN_DONT_INLINE
 double bench()
 {
   typedef Matrix<Scalar,m,k,TA> MatA;
   typedef Matrix<Scalar,k,n> MatB;
   typedef Matrix<Scalar,m,n> MatC;

   MatA A(m,k);
   MatB B(k,n);
   MatC C(m,n);
   A.setRandom();
   B.setRandom();
   C.setZero();

   BenchTimer t;

   double up = 1e7*4/sizeof(Scalar);
   double tm0 = 10, tm1 = 20;

   double flops = 2. * m * n * k;
   long rep = std::max(10., std::min(10000., up/flops) );
   long tries = std::max(tm0, std::min(tm1, up/flops) );

   BENCH(t, tries, rep, lazy_gemm(A,B,C));

   return 1e-9 * rep * flops / t.best();
 }

 template<int m, int n, int k>
 double bench_t(int t)
 {
   if(t)
     return bench<m,n,k,RowMajor>();
   else
     return bench<m,n,k,0>();
 }

 EIGEN_DONT_INLINE
 double bench_mnk(int m, int n, int k, int t)
 {
   int id = m*10000 + n*100 + k;
   switch(id) {
     case  10101 : return bench_t< 1, 1, 1>(t); break;
     case  20202 : return bench_t< 2, 2, 2>(t); break;
     case  30303 : return bench_t< 3, 3, 3>(t); break;
     case  40404 : return bench_t< 4, 4, 4>(t); break;
     case  50505 : return bench_t< 5, 5, 5>(t); break;
     case  60606 : return bench_t< 6, 6, 6>(t); break;
     case  70707 : return bench_t< 7, 7, 7>(t); break;
     case  80808 : return bench_t< 8, 8, 8>(t); break;
     case  90909 : return bench_t< 9, 9, 9>(t); break;
     case 101010 : return bench_t<10,10,10>(t); break;
     case 111111 : return bench_t<11,11,11>(t); break;
     case 121212 : return bench_t<12,12,12>(t); break;
   }
   return 0;
 }

 int main(int argc, char **argv)
 {
   std::vector<double> results;

   std::string filename = std::string("lazy_gemm_settings.txt");
   if(argc>1)
     filename = std::string(argv[1]);
   std::ifstream settings(filename);
   long m, n, k, t;
   while(settings >> m >> n >> k >> t)
   {
     //std::cerr << "  Testing " << m << " " << n << " " << k << std::endl;
     results.push_back( bench_mnk(m, n, k, t) );
   }

   std::cout << RowVectorXd::Map(results.data(), results.size());

   return 0;
 }
	#include <iostream>
	#include <fstream>
	#include <vector>
	#include <Eigen/Core>
	#include "../../BenchTimer.h"
	using namespace Eigen;

	#ifndef SCALAR
	#error SCALAR must be defined
	#endif

	typedef SCALAR Scalar;

	template<typename MatA, typename MatB, typename MatC>
	EIGEN_DONT_INLINE
	void lazy_gemm(const MatA &A, const MatB &B, MatC &C)
	{
	// escape((void*)A.data());
	// escape((void*)B.data());
	C.noalias() += A.lazyProduct(B);
	// escape((void*)C.data());
	}

	template<int m, int n, int k, int TA>
	EIGEN_DONT_INLINE
	double bench()
	{
	typedef Matrix<Scalar,m,k,TA> MatA;
	typedef Matrix<Scalar,k,n> MatB;
	typedef Matrix<Scalar,m,n> MatC;

	MatA A(m,k);
	MatB B(k,n);
	MatC C(m,n);
	A.setRandom();
	B.setRandom();
	C.setZero();

	BenchTimer t;

	double up = 1e7*4/sizeof(Scalar);
	double tm0 = 10, tm1 = 20;

	double flops = 2. * m * n * k;
	long rep = std::max(10., std::min(10000., up/flops) );
	long tries = std::max(tm0, std::min(tm1, up/flops) );

	BENCH(t, tries, rep, lazy_gemm(A,B,C));

	return 1e-9 * rep * flops / t.best();
	}

	template<int m, int n, int k>
	double bench_t(int t)
	{
	if(t)
	return bench<m,n,k,RowMajor>();
	else
	return bench<m,n,k,0>();
	}

	EIGEN_DONT_INLINE
	double bench_mnk(int m, int n, int k, int t)
	{
	int id = m10000 + n100 + k;
	switch(id) {
	case 10101 : return bench_t< 1, 1, 1>(t); break;
	case 20202 : return bench_t< 2, 2, 2>(t); break;
	case 30303 : return bench_t< 3, 3, 3>(t); break;
	case 40404 : return bench_t< 4, 4, 4>(t); break;
	case 50505 : return bench_t< 5, 5, 5>(t); break;
	case 60606 : return bench_t< 6, 6, 6>(t); break;
	case 70707 : return bench_t< 7, 7, 7>(t); break;
	case 80808 : return bench_t< 8, 8, 8>(t); break;
	case 90909 : return bench_t< 9, 9, 9>(t); break;
	case 101010 : return bench_t<10,10,10>(t); break;
	case 111111 : return bench_t<11,11,11>(t); break;
	case 121212 : return bench_t<12,12,12>(t); break;
	}
	return 0;
	}

	int main(int argc, char **argv)
	{
	std::vector<double> results;

	std::string filename = std::string("lazy_gemm_settings.txt");
	if(argc>1)
	filename = std::string(argv[1]);
	std::ifstream settings(filename);
	long m, n, k, t;
	while(settings >> m >> n >> k >> t)
	{
	//std::cerr << " Testing " << m << " " << n << " " << k << std::endl;
	results.push_back( bench_mnk(m, n, k, t) );
	}

	std::cout << RowVectorXd::Map(results.data(), results.size());

	return 0;
	}