bench/dense_solvers.cpp - mirror - Git at Google

 #include <iostream>
 #include "BenchTimer.h"
 #include <Eigen/Dense>
 #include <map>
 #include <string>
 using namespace Eigen;

 std::map<std::string,Array<float,1,4> > results;

 template<typename Scalar,int Size>
 void bench(int id, int size = Size)
 {
   typedef Matrix<Scalar,Size,Size> Mat;
   Mat A(size,size);
   A.setRandom();
   A = A*A.adjoint();
   BenchTimer t_llt, t_ldlt, t_lu, t_fplu, t_qr, t_cpqr, t_fpqr, t_jsvd;

   int tries = 3;
   int rep = 1000/size;
   if(rep==0) rep = 1;
   rep = rep*rep;

   LLT<Mat> llt(A);
   LDLT<Mat> ldlt(A);
   PartialPivLU<Mat> lu(A);
   FullPivLU<Mat> fplu(A);
   HouseholderQR<Mat> qr(A);
   ColPivHouseholderQR<Mat> cpqr(A);
   FullPivHouseholderQR<Mat> fpqr(A);
   JacobiSVD<Mat> jsvd(A.rows(),A.cols());

   BENCH(t_llt, tries, rep, llt.compute(A));
   BENCH(t_ldlt, tries, rep, ldlt.compute(A));
   BENCH(t_lu, tries, rep, lu.compute(A));
   BENCH(t_fplu, tries, rep, fplu.compute(A));
   BENCH(t_qr, tries, rep, qr.compute(A));
   BENCH(t_cpqr, tries, rep, cpqr.compute(A));
   BENCH(t_fpqr, tries, rep, fpqr.compute(A));
   if(size<500) // JacobiSVD is really too slow for too large matrices
     BENCH(t_jsvd, tries, rep, jsvd.compute(A,ComputeFullU|ComputeFullV));

   results["LLT"][id] = t_llt.best();
   results["LDLT"][id] = t_ldlt.best();
   results["PartialPivLU"][id] = t_lu.best();
   results["FullPivLU"][id] = t_fplu.best();
   results["HouseholderQR"][id] = t_qr.best();
   results["ColPivHouseholderQR"][id] = t_cpqr.best();
   results["FullPivHouseholderQR"][id] = t_fpqr.best();
   results["JacobiSVD"][id] = size<500 ? t_jsvd.best() : 0;
 }

 int main()
 {
   const int small = 8;
   const int medium = 100;
   const int large = 1000;
   const int xl = 4000;

   bench<float,small>(0);
   bench<float,Dynamic>(1,medium);
   bench<float,Dynamic>(2,large);
   bench<float,Dynamic>(3,xl);

   IOFormat fmt(3, 0, " \t", "\n", "", "");

   std::cout << "solver/size               " << small << "\t" << medium << "\t" << large << "\t" << xl << "\n";
   std::cout << "LLT                 (ms)  " << (results["LLT"]/1000.).format(fmt) << "\n";
   std::cout << "LDLT                 (%)  " << (results["LDLT"]/results["LLT"]).format(fmt) << "\n";
   std::cout << "PartialPivLU         (%)  " << (results["PartialPivLU"]/results["LLT"]).format(fmt) << "\n";
   std::cout << "FullPivLU            (%)  " << (results["FullPivLU"]/results["LLT"]).format(fmt) << "\n";
   std::cout << "HouseholderQR        (%)  " << (results["HouseholderQR"]/results["LLT"]).format(fmt) << "\n";
   std::cout << "ColPivHouseholderQR  (%)  " << (results["ColPivHouseholderQR"]/results["LLT"]).format(fmt) << "\n";
   std::cout << "FullPivHouseholderQR (%)  " << (results["FullPivHouseholderQR"]/results["LLT"]).format(fmt) << "\n";
   std::cout << "JacobiSVD            (%)  " << (results["JacobiSVD"]/results["LLT"]).format(fmt) << "\n";
 }
	#include <iostream>
	#include "BenchTimer.h"
	#include <Eigen/Dense>
	#include <map>
	#include <string>
	using namespace Eigen;

	std::map<std::string,Array<float,1,4> > results;

	template<typename Scalar,int Size>
	void bench(int id, int size = Size)
	{
	typedef Matrix<Scalar,Size,Size> Mat;
	Mat A(size,size);
	A.setRandom();
	A = A*A.adjoint();
	BenchTimer t_llt, t_ldlt, t_lu, t_fplu, t_qr, t_cpqr, t_fpqr, t_jsvd;

	int tries = 3;
	int rep = 1000/size;
	if(rep==0) rep = 1;
	rep = rep*rep;

	LLT<Mat> llt(A);
	LDLT<Mat> ldlt(A);
	PartialPivLU<Mat> lu(A);
	FullPivLU<Mat> fplu(A);
	HouseholderQR<Mat> qr(A);
	ColPivHouseholderQR<Mat> cpqr(A);
	FullPivHouseholderQR<Mat> fpqr(A);
	JacobiSVD<Mat> jsvd(A.rows(),A.cols());

	BENCH(t_llt, tries, rep, llt.compute(A));
	BENCH(t_ldlt, tries, rep, ldlt.compute(A));
	BENCH(t_lu, tries, rep, lu.compute(A));
	BENCH(t_fplu, tries, rep, fplu.compute(A));
	BENCH(t_qr, tries, rep, qr.compute(A));
	BENCH(t_cpqr, tries, rep, cpqr.compute(A));
	BENCH(t_fpqr, tries, rep, fpqr.compute(A));
	if(size<500) // JacobiSVD is really too slow for too large matrices
	BENCH(t_jsvd, tries, rep, jsvd.compute(A,ComputeFullU\|ComputeFullV));

	results["LLT"][id] = t_llt.best();
	results["LDLT"][id] = t_ldlt.best();
	results["PartialPivLU"][id] = t_lu.best();
	results["FullPivLU"][id] = t_fplu.best();
	results["HouseholderQR"][id] = t_qr.best();
	results["ColPivHouseholderQR"][id] = t_cpqr.best();
	results["FullPivHouseholderQR"][id] = t_fpqr.best();
	results["JacobiSVD"][id] = size<500 ? t_jsvd.best() : 0;
	}

	int main()
	{
	const int small = 8;
	const int medium = 100;
	const int large = 1000;
	const int xl = 4000;

	bench<float,small>(0);
	bench<float,Dynamic>(1,medium);
	bench<float,Dynamic>(2,large);
	bench<float,Dynamic>(3,xl);

	IOFormat fmt(3, 0, " \t", "\n", "", "");

	std::cout << "solver/size " << small << "\t" << medium << "\t" << large << "\t" << xl << "\n";
	std::cout << "LLT (ms) " << (results["LLT"]/1000.).format(fmt) << "\n";
	std::cout << "LDLT (%) " << (results["LDLT"]/results["LLT"]).format(fmt) << "\n";
	std::cout << "PartialPivLU (%) " << (results["PartialPivLU"]/results["LLT"]).format(fmt) << "\n";
	std::cout << "FullPivLU (%) " << (results["FullPivLU"]/results["LLT"]).format(fmt) << "\n";
	std::cout << "HouseholderQR (%) " << (results["HouseholderQR"]/results["LLT"]).format(fmt) << "\n";
	std::cout << "ColPivHouseholderQR (%) " << (results["ColPivHouseholderQR"]/results["LLT"]).format(fmt) << "\n";
	std::cout << "FullPivHouseholderQR (%) " << (results["FullPivHouseholderQR"]/results["LLT"]).format(fmt) << "\n";
	std::cout << "JacobiSVD (%) " << (results["JacobiSVD"]/results["LLT"]).format(fmt) << "\n";
	}