| |
|
| | #include <iostream> |
| | #include <Eigen/Core> |
| | #include <bench/BenchTimer.h> |
| |
|
| | using namespace Eigen; |
| | using namespace std; |
| |
|
| | #define END 9 |
| |
|
| | template<int S> struct map_size { enum { ret = S }; }; |
| | template<> struct map_size<10> { enum { ret = 20 }; }; |
| | template<> struct map_size<11> { enum { ret = 50 }; }; |
| | template<> struct map_size<12> { enum { ret = 100 }; }; |
| | template<> struct map_size<13> { enum { ret = 300 }; }; |
| |
|
| | template<int M, int N,int K> struct alt_prod |
| | { |
| | enum { |
| | ret = M==1 && N==1 ? InnerProduct |
| | : K==1 ? OuterProduct |
| | : M==1 ? GemvProduct |
| | : N==1 ? GemvProduct |
| | : GemmProduct |
| | }; |
| | }; |
| | |
| | void print_mode(int mode) |
| | { |
| | if(mode==InnerProduct) std::cout << "i"; |
| | if(mode==OuterProduct) std::cout << "o"; |
| | if(mode==CoeffBasedProductMode) std::cout << "c"; |
| | if(mode==LazyCoeffBasedProductMode) std::cout << "l"; |
| | if(mode==GemvProduct) std::cout << "v"; |
| | if(mode==GemmProduct) std::cout << "m"; |
| | } |
| |
|
| | template<int Mode, typename Lhs, typename Rhs, typename Res> |
| | EIGEN_DONT_INLINE void prod(const Lhs& a, const Rhs& b, Res& c) |
| | { |
| | c.noalias() += typename ProductReturnType<Lhs,Rhs,Mode>::Type(a,b); |
| | } |
| |
|
| | template<int M, int N, int K, typename Scalar, int Mode> |
| | EIGEN_DONT_INLINE void bench_prod() |
| | { |
| | typedef Matrix<Scalar,M,K> Lhs; Lhs a; a.setRandom(); |
| | typedef Matrix<Scalar,K,N> Rhs; Rhs b; b.setRandom(); |
| | typedef Matrix<Scalar,M,N> Res; Res c; c.setRandom(); |
| |
|
| | BenchTimer t; |
| | double n = 2.*double(M)*double(N)*double(K); |
| | int rep = 100000./n; |
| | rep /= 2; |
| | if(rep<1) rep = 1; |
| | do { |
| | rep *= 2; |
| | t.reset(); |
| | BENCH(t,1,rep,prod<CoeffBasedProductMode>(a,b,c)); |
| | } while(t.best()<0.1); |
| | |
| | t.reset(); |
| | BENCH(t,5,rep,prod<Mode>(a,b,c)); |
| |
|
| | print_mode(Mode); |
| | std::cout << int(1e-6*n*rep/t.best()) << "\t"; |
| | } |
| |
|
| | template<int N> struct print_n; |
| | template<int M, int N, int K> struct loop_on_m; |
| | template<int M, int N, int K, typename Scalar, int Mode> struct loop_on_n; |
| |
|
| | template<int M, int N, int K> |
| | struct loop_on_k |
| | { |
| | static void run() |
| | { |
| | std::cout << "K=" << K << "\t"; |
| | print_n<N>::run(); |
| | std::cout << "\n"; |
| |
|
| | loop_on_m<M,N,K>::run(); |
| | std::cout << "\n\n"; |
| |
|
| | loop_on_k<M,N,K+1>::run(); |
| | } |
| | }; |
| |
|
| | template<int M, int N> |
| | struct loop_on_k<M,N,END> { static void run(){} }; |
| |
|
| |
|
| | template<int M, int N, int K> |
| | struct loop_on_m |
| | { |
| | static void run() |
| | { |
| | std::cout << M << "f\t"; |
| | loop_on_n<M,N,K,float,CoeffBasedProductMode>::run(); |
| | std::cout << "\n"; |
| | |
| | std::cout << M << "f\t"; |
| | loop_on_n<M,N,K,float,-1>::run(); |
| | std::cout << "\n"; |
| |
|
| | loop_on_m<M+1,N,K>::run(); |
| | } |
| | }; |
| |
|
| | template<int N, int K> |
| | struct loop_on_m<END,N,K> { static void run(){} }; |
| |
|
| | template<int M, int N, int K, typename Scalar, int Mode> |
| | struct loop_on_n |
| | { |
| | static void run() |
| | { |
| | bench_prod<M,N,K,Scalar,Mode==-1? alt_prod<M,N,K>::ret : Mode>(); |
| | |
| | loop_on_n<M,N+1,K,Scalar,Mode>::run(); |
| | } |
| | }; |
| |
|
| | template<int M, int K, typename Scalar, int Mode> |
| | struct loop_on_n<M,END,K,Scalar,Mode> { static void run(){} }; |
| |
|
| | template<int N> struct print_n |
| | { |
| | static void run() |
| | { |
| | std::cout << map_size<N>::ret << "\t"; |
| | print_n<N+1>::run(); |
| | } |
| | }; |
| |
|
| | template<> struct print_n<END> { static void run(){} }; |
| |
|
| | int main() |
| | { |
| | loop_on_k<1,1,1>::run(); |
| | |
| | return 0; |
| | } |
| |
|
