benchmarks/Core/bench_syr2.cpp - mirror - Git at Google

 // Benchmarks for symmetric rank-2 update (SYR2).
 //
 // Tests C.selfadjointView<Lower>().rankUpdate(u, v, alpha) which computes
 // C += alpha * u * v^T + conj(alpha) * v * u^T.
 // Exercises SelfadjointRank2Update.h.

 #include <benchmark/benchmark.h>
 #include <Eigen/Core>

 using namespace Eigen;

 template <typename Scalar>
 double syr2Flops(Index n) {
   // SYR2: 2 * n*(n+1)/2 multiply-adds ~ 2*n^2
   return (NumTraits<Scalar>::IsComplex ? 8.0 : 2.0) * 2 * n * (n + 1) / 2;
 }

 template <typename Scalar>
 static void BM_SYR2_Lower(benchmark::State& state) {
   const Index n = state.range(0);
   using Mat = Matrix<Scalar, Dynamic, Dynamic>;
   using Vec = Matrix<Scalar, Dynamic, 1>;
   Vec u = Vec::Random(n);
   Vec v = Vec::Random(n);
   Mat C = Mat::Zero(n, n);
   Scalar alpha(1);
   for (auto _ : state) {
     C.template selfadjointView<Lower>().rankUpdate(u, v, alpha);
     benchmark::DoNotOptimize(C.data());
     benchmark::ClobberMemory();
   }
   state.counters["GFLOPS"] = benchmark::Counter(syr2Flops<Scalar>(n), benchmark::Counter::kIsIterationInvariantRate,
                                                 benchmark::Counter::kIs1000);
 }

 template <typename Scalar>
 static void BM_SYR2_Upper(benchmark::State& state) {
   const Index n = state.range(0);
   using Mat = Matrix<Scalar, Dynamic, Dynamic>;
   using Vec = Matrix<Scalar, Dynamic, 1>;
   Vec u = Vec::Random(n);
   Vec v = Vec::Random(n);
   Mat C = Mat::Zero(n, n);
   Scalar alpha(1);
   for (auto _ : state) {
     C.template selfadjointView<Upper>().rankUpdate(u, v, alpha);
     benchmark::DoNotOptimize(C.data());
     benchmark::ClobberMemory();
   }
   state.counters["GFLOPS"] = benchmark::Counter(syr2Flops<Scalar>(n), benchmark::Counter::kIsIterationInvariantRate,
                                                 benchmark::Counter::kIs1000);
 }

 // clang-format off
 #define SYR2_SIZES ->Arg(8)->Arg(16)->Arg(32)->Arg(64)->Arg(128)->Arg(256)->Arg(512)->Arg(1024)->Arg(2048)
 BENCHMARK(BM_SYR2_Lower<float>) SYR2_SIZES ->Name("SYR2_Lower_float");
 BENCHMARK(BM_SYR2_Lower<double>) SYR2_SIZES ->Name("SYR2_Lower_double");
 BENCHMARK(BM_SYR2_Upper<float>) SYR2_SIZES ->Name("SYR2_Upper_float");
 BENCHMARK(BM_SYR2_Upper<double>) SYR2_SIZES ->Name("SYR2_Upper_double");
 #undef SYR2_SIZES
 // clang-format on
	// Benchmarks for symmetric rank-2 update (SYR2).
	//
	// Tests C.selfadjointView<Lower>().rankUpdate(u, v, alpha) which computes
	// C += alpha * u * v^T + conj(alpha) * v * u^T.
	// Exercises SelfadjointRank2Update.h.

	#include <benchmark/benchmark.h>
	#include <Eigen/Core>

	using namespace Eigen;

	template <typename Scalar>
	double syr2Flops(Index n) {
	// SYR2: 2 * n(n+1)/2 multiply-adds ~ 2n^2
	return (NumTraits<Scalar>::IsComplex ? 8.0 : 2.0) * 2 * n * (n + 1) / 2;
	}

	template <typename Scalar>
	static void BM_SYR2_Lower(benchmark::State& state) {
	const Index n = state.range(0);
	using Mat = Matrix<Scalar, Dynamic, Dynamic>;
	using Vec = Matrix<Scalar, Dynamic, 1>;
	Vec u = Vec::Random(n);
	Vec v = Vec::Random(n);
	Mat C = Mat::Zero(n, n);
	Scalar alpha(1);
	for (auto _ : state) {
	C.template selfadjointView<Lower>().rankUpdate(u, v, alpha);
	benchmark::DoNotOptimize(C.data());
	benchmark::ClobberMemory();
	}
	state.counters["GFLOPS"] = benchmark::Counter(syr2Flops<Scalar>(n), benchmark::Counter::kIsIterationInvariantRate,
	benchmark::Counter::kIs1000);
	}

	template <typename Scalar>
	static void BM_SYR2_Upper(benchmark::State& state) {
	const Index n = state.range(0);
	using Mat = Matrix<Scalar, Dynamic, Dynamic>;
	using Vec = Matrix<Scalar, Dynamic, 1>;
	Vec u = Vec::Random(n);
	Vec v = Vec::Random(n);
	Mat C = Mat::Zero(n, n);
	Scalar alpha(1);
	for (auto _ : state) {
	C.template selfadjointView<Upper>().rankUpdate(u, v, alpha);
	benchmark::DoNotOptimize(C.data());
	benchmark::ClobberMemory();
	}
	state.counters["GFLOPS"] = benchmark::Counter(syr2Flops<Scalar>(n), benchmark::Counter::kIsIterationInvariantRate,
	benchmark::Counter::kIs1000);
	}

	// clang-format off
	#define SYR2_SIZES ->Arg(8)->Arg(16)->Arg(32)->Arg(64)->Arg(128)->Arg(256)->Arg(512)->Arg(1024)->Arg(2048)
	BENCHMARK(BM_SYR2_Lower<float>) SYR2_SIZES ->Name("SYR2_Lower_float");
	BENCHMARK(BM_SYR2_Lower<double>) SYR2_SIZES ->Name("SYR2_Lower_double");
	BENCHMARK(BM_SYR2_Upper<float>) SYR2_SIZES ->Name("SYR2_Upper_float");
	BENCHMARK(BM_SYR2_Upper<double>) SYR2_SIZES ->Name("SYR2_Upper_double");
	#undef SYR2_SIZES
	// clang-format on