unsupported/bench/bench_svd.cpp - eigen - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2013 Gauthier Brun <brun.gauthier@gmail.com>
 // Copyright (C) 2013 Nicolas Carre <nicolas.carre@ensimag.fr>
 // Copyright (C) 2013 Jean Ceccato <jean.ceccato@ensimag.fr>
 // Copyright (C) 2013 Pierre Zoppitelli <pierre.zoppitelli@ensimag.fr>
 //
 // This Source Code Form is subject to the terms of the Mozilla
 // Public License v. 2.0. If a copy of the MPL was not distributed
 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/

 // Bench to compare the efficiency of SVD algorithms

 #include <iostream>
 #include <bench/BenchTimer.h>
 #include <unsupported/Eigen/SVD>


 using namespace Eigen;
 using namespace std;

 // number of computations of each algorithm before the print of the time
 #ifndef REPEAT
 #define REPEAT 10
 #endif

 // number of tests of the same type
 #ifndef NUMBER_SAMPLE
 #define NUMBER_SAMPLE 2
 #endif

 template<typename MatrixType>
 void bench_svd(const MatrixType& a = MatrixType())
 {
   MatrixType m = MatrixType::Random(a.rows(), a.cols());
   BenchTimer timerJacobi;
   BenchTimer timerBDC;
   timerJacobi.reset();
   timerBDC.reset();

   cout << " Only compute Singular Values" <<endl;
   for (int k=1; k<=NUMBER_SAMPLE; ++k)
   {
     timerBDC.start();
     for (int i=0; i<REPEAT; ++i)
     {
       BDCSVD<MatrixType> bdc_matrix(m);
     }
     timerBDC.stop();

     timerJacobi.start();
     for (int i=0; i<REPEAT; ++i)
     {
       JacobiSVD<MatrixType> jacobi_matrix(m);
     }
     timerJacobi.stop();


     cout << "Sample " << k << " : " << REPEAT << " computations :  Jacobi : " << fixed << timerJacobi.value() << "s ";
     cout << " || " << " BDC : " << timerBDC.value() << "s " <<endl <<endl;

     if (timerBDC.value() >= timerJacobi.value())
       cout << "KO : BDC is " <<  timerJacobi.value() / timerBDC.value() << "  times faster than Jacobi" <<endl;
     else
       cout << "OK : BDC is " << timerJacobi.value() / timerBDC.value() << "  times faster than Jacobi"  <<endl;

   }
   cout << "       =================" <<endl;
   std::cout<< std::endl;
   timerJacobi.reset();
   timerBDC.reset();
   cout << " Computes rotation matrix" <<endl;
   for (int k=1; k<=NUMBER_SAMPLE; ++k)
   {
     timerBDC.start();
     for (int i=0; i<REPEAT; ++i)
     {
       BDCSVD<MatrixType> bdc_matrix(m, ComputeFullU|ComputeFullV);
     }
     timerBDC.stop();

     timerJacobi.start();
     for (int i=0; i<REPEAT; ++i)
     {
       JacobiSVD<MatrixType> jacobi_matrix(m, ComputeFullU|ComputeFullV);
     }
     timerJacobi.stop();


     cout << "Sample " << k << " : " << REPEAT << " computations :  Jacobi : " << fixed << timerJacobi.value() << "s ";
     cout << " || " << " BDC : " << timerBDC.value() << "s " <<endl <<endl;

     if (timerBDC.value() >= timerJacobi.value())
       cout << "KO : BDC is " <<  timerJacobi.value() / timerBDC.value() << "  times faster than Jacobi" <<endl;
     else
       cout << "OK : BDC is " << timerJacobi.value() / timerBDC.value() << "  times faster than Jacobi"  <<endl;

   }
   std::cout<< std::endl;
 }


 int main(int argc, char* argv[])
 {
   std::cout<< std::endl;

   std::cout<<"On a (Dynamic, Dynamic) (6, 6) Matrix" <<std::endl;
   bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(6, 6));

   std::cout<<"On a (Dynamic, Dynamic) (32, 32) Matrix" <<std::endl;
   bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(32, 32));

   //std::cout<<"On a (Dynamic, Dynamic) (128, 128) Matrix" <<std::endl;
   //bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(128, 128));

   std::cout<<"On a (Dynamic, Dynamic) (160, 160) Matrix" <<std::endl;
   bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(160, 160));

   std::cout<< "--------------------------------------------------------------------"<< std::endl;

 }
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2013 Gauthier Brun <brun.gauthier@gmail.com>
	// Copyright (C) 2013 Nicolas Carre <nicolas.carre@ensimag.fr>
	// Copyright (C) 2013 Jean Ceccato <jean.ceccato@ensimag.fr>
	// Copyright (C) 2013 Pierre Zoppitelli <pierre.zoppitelli@ensimag.fr>
	//
	// This Source Code Form is subject to the terms of the Mozilla
	// Public License v. 2.0. If a copy of the MPL was not distributed
	// with this file, You can obtain one at http://mozilla.org/MPL/2.0/

	// Bench to compare the efficiency of SVD algorithms

	#include <iostream>
	#include <bench/BenchTimer.h>
	#include <unsupported/Eigen/SVD>


	using namespace Eigen;
	using namespace std;

	// number of computations of each algorithm before the print of the time
	#ifndef REPEAT
	#define REPEAT 10
	#endif

	// number of tests of the same type
	#ifndef NUMBER_SAMPLE
	#define NUMBER_SAMPLE 2
	#endif

	template<typename MatrixType>
	void bench_svd(const MatrixType& a = MatrixType())
	{
	MatrixType m = MatrixType::Random(a.rows(), a.cols());
	BenchTimer timerJacobi;
	BenchTimer timerBDC;
	timerJacobi.reset();
	timerBDC.reset();

	cout << " Only compute Singular Values" <<endl;
	for (int k=1; k<=NUMBER_SAMPLE; ++k)
	{
	timerBDC.start();
	for (int i=0; i<REPEAT; ++i)
	{
	BDCSVD<MatrixType> bdc_matrix(m);
	}
	timerBDC.stop();

	timerJacobi.start();
	for (int i=0; i<REPEAT; ++i)
	{
	JacobiSVD<MatrixType> jacobi_matrix(m);
	}
	timerJacobi.stop();


	cout << "Sample " << k << " : " << REPEAT << " computations : Jacobi : " << fixed << timerJacobi.value() << "s ";
	cout << " \|\| " << " BDC : " << timerBDC.value() << "s " <<endl <<endl;

	if (timerBDC.value() >= timerJacobi.value())
	cout << "KO : BDC is " << timerJacobi.value() / timerBDC.value() << " times faster than Jacobi" <<endl;
	else
	cout << "OK : BDC is " << timerJacobi.value() / timerBDC.value() << " times faster than Jacobi" <<endl;

	}
	cout << " =================" <<endl;
	std::cout<< std::endl;
	timerJacobi.reset();
	timerBDC.reset();
	cout << " Computes rotation matrix" <<endl;
	for (int k=1; k<=NUMBER_SAMPLE; ++k)
	{
	timerBDC.start();
	for (int i=0; i<REPEAT; ++i)
	{
	BDCSVD<MatrixType> bdc_matrix(m, ComputeFullU\|ComputeFullV);
	}
	timerBDC.stop();

	timerJacobi.start();
	for (int i=0; i<REPEAT; ++i)
	{
	JacobiSVD<MatrixType> jacobi_matrix(m, ComputeFullU\|ComputeFullV);
	}
	timerJacobi.stop();


	cout << "Sample " << k << " : " << REPEAT << " computations : Jacobi : " << fixed << timerJacobi.value() << "s ";
	cout << " \|\| " << " BDC : " << timerBDC.value() << "s " <<endl <<endl;

	if (timerBDC.value() >= timerJacobi.value())
	cout << "KO : BDC is " << timerJacobi.value() / timerBDC.value() << " times faster than Jacobi" <<endl;
	else
	cout << "OK : BDC is " << timerJacobi.value() / timerBDC.value() << " times faster than Jacobi" <<endl;

	}
	std::cout<< std::endl;
	}



	int main(int argc, char* argv[])
	{
	std::cout<< std::endl;

	std::cout<<"On a (Dynamic, Dynamic) (6, 6) Matrix" <<std::endl;
	bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(6, 6));

	std::cout<<"On a (Dynamic, Dynamic) (32, 32) Matrix" <<std::endl;
	bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(32, 32));

	//std::cout<<"On a (Dynamic, Dynamic) (128, 128) Matrix" <<std::endl;
	//bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(128, 128));

	std::cout<<"On a (Dynamic, Dynamic) (160, 160) Matrix" <<std::endl;
	bench_svd<Matrix<double,Dynamic,Dynamic> >(Matrix<double,Dynamic,Dynamic>(160, 160));

	std::cout<< "--------------------------------------------------------------------"<< std::endl;

	}