| |
| // g++-4.4 bench_gemm.cpp -I .. -O2 -DNDEBUG -lrt -fopenmp && OMP_NUM_THREADS=2 ./a.out |
| // icpc bench_gemm.cpp -I .. -O3 -DNDEBUG -lrt -openmp && OMP_NUM_THREADS=2 ./a.out |
| |
| #include <Eigen/Core> |
| #include <iostream> |
| #include <bench/BenchTimer.h> |
| |
| using namespace std; |
| using namespace Eigen; |
| |
| #ifndef SCALAR |
| #define SCALAR float |
| #endif |
| |
| typedef SCALAR Scalar; |
| typedef Matrix<Scalar,Dynamic,Dynamic> M; |
| |
| #ifdef HAVE_BLAS |
| |
| extern "C" { |
| #include <bench/btl/libs/C_BLAS/blas.h> |
| } |
| |
| static float fone = 1; |
| static float fzero = 0; |
| static double done = 1; |
| static double szero = 0; |
| static char notrans = 'N'; |
| static char trans = 'T'; |
| static char nonunit = 'N'; |
| static char lower = 'L'; |
| static char right = 'R'; |
| static int intone = 1; |
| |
| void blas_gemm(const MatrixXf& a, const MatrixXf& b, MatrixXf& c) |
| { |
| int M = c.rows(); int N = c.cols(); int K = a.cols(); |
| int lda = a.rows(); int ldb = b.rows(); int ldc = c.rows(); |
| |
| sgemm_(¬rans,¬rans,&M,&N,&K,&fone, |
| const_cast<float*>(a.data()),&lda, |
| const_cast<float*>(b.data()),&ldb,&fone, |
| c.data(),&ldc); |
| } |
| |
| void blas_gemm(const MatrixXd& a, const MatrixXd& b, MatrixXd& c) |
| { |
| int M = c.rows(); int N = c.cols(); int K = a.cols(); |
| int lda = a.rows(); int ldb = b.rows(); int ldc = c.rows(); |
| |
| dgemm_(¬rans,¬rans,&M,&N,&K,&done, |
| const_cast<double*>(a.data()),&lda, |
| const_cast<double*>(b.data()),&ldb,&done, |
| c.data(),&ldc); |
| } |
| |
| #endif |
| |
| void gemm(const M& a, const M& b, M& c) |
| { |
| c.noalias() += a * b; |
| } |
| |
| int main(int argc, char ** argv) |
| { |
| int rep = 1; // number of repetitions per try |
| int tries = 5; // number of tries, we keep the best |
| |
| int s = argc==2 ? std::atoi(argv[1]) : 2048; |
| std::cout << "Matrix size = " << s << "\n"; |
| |
| int m = s; |
| int n = s; |
| int p = s; |
| M a(m,n); a.setRandom(); |
| M b(n,p); b.setRandom(); |
| M c(m,p); c.setOnes(); |
| |
| M r = c; |
| |
| // check the parallel product is correct |
| #ifdef EIGEN_HAS_OPENMP |
| int procs = omp_get_max_threads(); |
| if(procs>1) |
| { |
| #ifdef HAVE_BLAS |
| blas_gemm(a,b,r); |
| #else |
| omp_set_num_threads(1); |
| r.noalias() += a * b; |
| omp_set_num_threads(procs); |
| #endif |
| c.noalias() += a * b; |
| if(!r.isApprox(c)) std::cerr << "Warning, your parallel product is crap!\n\n"; |
| } |
| #endif |
| |
| #ifdef HAVE_BLAS |
| BenchTimer tblas; |
| BENCH(tblas, tries, rep, blas_gemm(a,b,c)); |
| std::cout << "blas cpu " << tblas.best(CPU_TIMER)/rep << "s \t" << (double(m)*n*p*rep*2/tblas.best(CPU_TIMER))*1e-9 << " GFLOPS \t(" << tblas.total(CPU_TIMER) << "s)\n"; |
| std::cout << "blas real " << tblas.best(REAL_TIMER)/rep << "s \t" << (double(m)*n*p*rep*2/tblas.best(REAL_TIMER))*1e-9 << " GFLOPS \t(" << tblas.total(REAL_TIMER) << "s)\n"; |
| #endif |
| |
| BenchTimer tmt; |
| BENCH(tmt, tries, rep, gemm(a,b,c)); |
| std::cout << "eigen cpu " << tmt.best(CPU_TIMER)/rep << "s \t" << (double(m)*n*p*rep*2/tmt.best(CPU_TIMER))*1e-9 << " GFLOPS \t(" << tmt.total(CPU_TIMER) << "s)\n"; |
| std::cout << "eigen real " << tmt.best(REAL_TIMER)/rep << "s \t" << (double(m)*n*p*rep*2/tmt.best(REAL_TIMER))*1e-9 << " GFLOPS \t(" << tmt.total(REAL_TIMER) << "s)\n"; |
| |
| #ifdef EIGEN_HAS_OPENMP |
| if(procs>1) |
| { |
| BenchTimer tmono; |
| omp_set_num_threads(1); |
| BENCH(tmono, tries, rep, gemm(a,b,c)); |
| std::cout << "eigen mono cpu " << tmono.best(CPU_TIMER)/rep << "s \t" << (double(m)*n*p*rep*2/tmono.best(CPU_TIMER))*1e-9 << " GFLOPS \t(" << tmono.total(CPU_TIMER) << "s)\n"; |
| std::cout << "eigen mono real " << tmono.best(REAL_TIMER)/rep << "s \t" << (double(m)*n*p*rep*2/tmono.best(REAL_TIMER))*1e-9 << " GFLOPS \t(" << tmono.total(REAL_TIMER) << "s)\n"; |
| std::cout << "mt speed up x" << tmono.best(CPU_TIMER) / tmt.best(REAL_TIMER) << " => " << (100.0*tmono.best(CPU_TIMER) / tmt.best(REAL_TIMER))/procs << "%\n"; |
| } |
| #endif |
| |
| return 0; |
| } |
| |
