bench/s16-vlshift.cc - platform/external/XNNPACK - Git at Google

 // Copyright 2022 Google LLC
 //
 // This source code is licensed under the BSD-style license found in the
 // LICENSE file in the root directory of this source tree.

 #include <algorithm>
 #include <cmath>
 #include <functional>
 #include <numeric>
 #include <vector>

 #include "bench/utils.h"
 #include <benchmark/benchmark.h>

 #include <xnnpack.h>
 #include <xnnpack/aligned-allocator.h>
 #include <xnnpack/common.h>
 #include <xnnpack/microfnptr.h>
 #include <xnnpack/vlshift.h>


 void vlshift(
     benchmark::State& state,
     xnn_s16_vlshift_ukernel_function vlshift,
     benchmark::utils::IsaCheckFunction isa_check = nullptr)
 {
   if (isa_check && !isa_check(state)) {
     return;
   }
   const size_t batch = state.range(0);

   std::vector<int16_t, AlignedAllocator<int16_t, 64>> input(
       batch + XNN_EXTRA_BYTES / sizeof(int16_t));
   std::vector<int16_t, AlignedAllocator<int16_t, 64>> output(batch);
   std::iota(input.begin(), input.end(), 0);
   std::iota(output.begin(), output.end(), 1);

   for (auto _ : state) {
     vlshift(batch, input.data(), output.data(), 4 /* shift */);
   }

   const uint64_t cpu_frequency = benchmark::utils::GetCurrentCpuFrequency();
   if (cpu_frequency != 0) {
     state.counters["cpufreq"] = cpu_frequency;
   }
 }

 static void BenchmarkKernelSize(benchmark::internal::Benchmark* b)
 {
   b->ArgNames({"batch"});
   b->Args({32});
   b->Args({64});
   b->Args({117});
   b->Args({400});
   b->Args({1000});
   b->Args({10000});
 }

 #if XNN_ARCH_ARM || XNN_ARCH_ARM64
 BENCHMARK_CAPTURE(vlshift, s16_neon_x8, xnn_s16_vlshift_ukernel__neon_x8)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 BENCHMARK_CAPTURE(vlshift, s16_neon_x16, xnn_s16_vlshift_ukernel__neon_x16)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 BENCHMARK_CAPTURE(vlshift, s16_neon_x24, xnn_s16_vlshift_ukernel__neon_x24)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 BENCHMARK_CAPTURE(vlshift, s16_neon_x32, xnn_s16_vlshift_ukernel__neon_x32)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 #endif  // XNN_ARCH_ARM || XNN_ARCH_ARM64

 BENCHMARK_CAPTURE(vlshift, s16_scalar_x1, xnn_s16_vlshift_ukernel__scalar_x1)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 BENCHMARK_CAPTURE(vlshift, s16_scalar_x2, xnn_s16_vlshift_ukernel__scalar_x2)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 BENCHMARK_CAPTURE(vlshift, s16_scalar_x3, xnn_s16_vlshift_ukernel__scalar_x3)
     ->Apply(BenchmarkKernelSize)->UseRealTime();
 BENCHMARK_CAPTURE(vlshift, s16_scalar_x4, xnn_s16_vlshift_ukernel__scalar_x4)
     ->Apply(BenchmarkKernelSize)->UseRealTime();

 #ifndef XNNPACK_BENCHMARK_NO_MAIN
 BENCHMARK_MAIN();
 #endif
	// Copyright 2022 Google LLC
	//
	// This source code is licensed under the BSD-style license found in the
	// LICENSE file in the root directory of this source tree.

	#include <algorithm>
	#include <cmath>
	#include <functional>
	#include <numeric>
	#include <vector>

	#include "bench/utils.h"
	#include <benchmark/benchmark.h>

	#include <xnnpack.h>
	#include <xnnpack/aligned-allocator.h>
	#include <xnnpack/common.h>
	#include <xnnpack/microfnptr.h>
	#include <xnnpack/vlshift.h>


	void vlshift(
	benchmark::State& state,
	xnn_s16_vlshift_ukernel_function vlshift,
	benchmark::utils::IsaCheckFunction isa_check = nullptr)
	{
	if (isa_check && !isa_check(state)) {
	return;
	}
	const size_t batch = state.range(0);

	std::vector<int16_t, AlignedAllocator<int16_t, 64>> input(
	batch + XNN_EXTRA_BYTES / sizeof(int16_t));
	std::vector<int16_t, AlignedAllocator<int16_t, 64>> output(batch);
	std::iota(input.begin(), input.end(), 0);
	std::iota(output.begin(), output.end(), 1);

	for (auto _ : state) {
	vlshift(batch, input.data(), output.data(), 4 /* shift */);
	}

	const uint64_t cpu_frequency = benchmark::utils::GetCurrentCpuFrequency();
	if (cpu_frequency != 0) {
	state.counters["cpufreq"] = cpu_frequency;
	}
	}

	static void BenchmarkKernelSize(benchmark::internal::Benchmark* b)
	{
	b->ArgNames({"batch"});
	b->Args({32});
	b->Args({64});
	b->Args({117});
	b->Args({400});
	b->Args({1000});
	b->Args({10000});
	}

	#if XNN_ARCH_ARM \|\| XNN_ARCH_ARM64
	BENCHMARK_CAPTURE(vlshift, s16_neon_x8, xnn_s16_vlshift_ukernel__neon_x8)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	BENCHMARK_CAPTURE(vlshift, s16_neon_x16, xnn_s16_vlshift_ukernel__neon_x16)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	BENCHMARK_CAPTURE(vlshift, s16_neon_x24, xnn_s16_vlshift_ukernel__neon_x24)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	BENCHMARK_CAPTURE(vlshift, s16_neon_x32, xnn_s16_vlshift_ukernel__neon_x32)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	#endif // XNN_ARCH_ARM \|\| XNN_ARCH_ARM64

	BENCHMARK_CAPTURE(vlshift, s16_scalar_x1, xnn_s16_vlshift_ukernel__scalar_x1)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	BENCHMARK_CAPTURE(vlshift, s16_scalar_x2, xnn_s16_vlshift_ukernel__scalar_x2)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	BENCHMARK_CAPTURE(vlshift, s16_scalar_x3, xnn_s16_vlshift_ukernel__scalar_x3)
	->Apply(BenchmarkKernelSize)->UseRealTime();
	BENCHMARK_CAPTURE(vlshift, s16_scalar_x4, xnn_s16_vlshift_ukernel__scalar_x4)
	->Apply(BenchmarkKernelSize)->UseRealTime();

	#ifndef XNNPACK_BENCHMARK_NO_MAIN
	BENCHMARK_MAIN();
	#endif