eval/f32-sigmoid.cc - platform/external/XNNPACK - Gitiles

 // Copyright 2019 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 <cfloat>
 #include <cmath>
 #include <functional>
 #include <random>
 #include <vector>

 #include <benchmark/benchmark.h>
 #include <fp16/fp16.h>

 #include <xnnpack/AlignedAllocator.h>
 #include <xnnpack/common.h>
 #include <xnnpack/math-stubs.h>


 static void SigmoidError(benchmark::State& state,
   xnn_f32_unary_math_function sigmoid,
   size_t tile_size)
 {
   // The smallest x for which sigmoidf(x) is normalized (-0x1.5D589Ep+6f).
   const uint32_t min_input = 0xC2AEAC4F;
   // The largest x for which sigmoidf(x) is not 1.0f (0x1.154244p+4f).
   const uint32_t max_input = 0x418AA122;
   // Number of tiles in one block of inputs/outputs. Combining multiple tiles in a block reduce function call overhead.
   const size_t num_tiles = 100;

   double max_ulp_error = 0.0;
   std::vector<float, AlignedAllocator<float, 64>> x(tile_size * num_tiles);
   std::vector<float, AlignedAllocator<float, 64>> y(tile_size * num_tiles);
   for (auto _ : state) {
     for (uint32_t n = min_input; int32_t(n) < 0; n -= tile_size * num_tiles) {
       for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
         x[i] = fp32_from_bits(std::max<uint32_t>(n - i, 0x80000000));
       }
       std::fill(y.begin(), y.end(), std::nanf(""));

       sigmoid(tile_size * num_tiles * sizeof(float), x.data(), y.data());

       for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
         const double e_ref = std::exp(double(x[i]));
         const double y_ref = e_ref / (e_ref + 1.0);
         const double abs_error = std::abs(y_ref - double(y[i]));
         const float y_abs = std::abs(y_ref);
         const float y_ulp = fp32_from_bits(fp32_to_bits(y_abs) + 1) - y_abs;
         max_ulp_error = std::max<double>(max_ulp_error, abs_error / y_ulp);
       }
     }
     for (uint32_t n = 0; n < max_input; n += tile_size * num_tiles) {
       for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
         x[i] = fp32_from_bits(std::min<uint32_t>(n + i, max_input));
       }
       std::fill(y.begin(), y.end(), std::nanf(""));

       sigmoid(tile_size * num_tiles * sizeof(float), x.data(), y.data());

       for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
         const double y_ref = 1.0 / (1.0 + std::exp(-double(x[i])));
         const double abs_error = std::abs(y_ref - double(y[i]));
         const float y_abs = std::abs(y_ref);
         const float y_ulp = fp32_from_bits(fp32_to_bits(y_abs) + 1) - y_abs;
         max_ulp_error = std::max<double>(max_ulp_error, abs_error / y_ulp);
       }
     }
   }

   state.counters["ULPERROR"] = benchmark::Counter(max_ulp_error);
 }

 #if XNN_ARCH_ARM || XNN_ARCH_ARM64
   static void f32_sigmoid__neon_frac_p9_p10_nr1recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_frac_p9_p10_nr1recps, 4);
   }

   static void f32_sigmoid__neon_rr2_lut2048_p1_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_rr2_lut2048_p1_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut2048_p1_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut2048_p1_nr1recps1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_nr1recps1fma, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut2048_p1_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_nr2fma, 4);
   }

   static void f32_sigmoid__neon_rr2_lut64_p2_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_rr2_lut64_p2_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut64_p2_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut64_p2_nr1recps1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_nr1recps1fma, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut64_p2_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_nr2fma, 4);
   }

   static void f32_sigmoid__neon_rr2_p5_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_rr2_p5_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr2_p5_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr2_p5_nr1recps1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_nr1recps1fma, 4);
   }
   static void f32_sigmoid__neonfma_rr2_p5_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_nr2fma, 4);
   }

   static void f32_sigmoid__neon_rr1_lut2048_p1_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_rr1_lut2048_p1_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut2048_p1_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut2048_p1_nr1recps1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_nr1recps1fma, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut2048_p1_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_nr2fma, 4);
   }

   static void f32_sigmoid__neon_rr1_lut64_p2_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_rr1_lut64_p2_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut64_p2_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut64_p2_nr1recps1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_nr1recps1fma, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut64_p2_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_nr2fma, 4);
   }

   static void f32_sigmoid__neon_rr1_p5_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neon_rr1_p5_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr1_p5_nr2recps(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_nr2recps, 4);
   }
   static void f32_sigmoid__neonfma_rr1_p5_nr1recps1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_nr1recps1fma, 4);
   }
   static void f32_sigmoid__neonfma_rr1_p5_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_nr2fma, 4);
   }

   BENCHMARK(f32_sigmoid__neon_frac_p9_p10_nr1recps)->Unit(benchmark::kMillisecond)->Iterations(1);

   BENCHMARK(f32_sigmoid__neon_rr2_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

   BENCHMARK(f32_sigmoid__neon_rr2_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

   BENCHMARK(f32_sigmoid__neon_rr2_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_p5_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

   BENCHMARK(f32_sigmoid__neon_rr1_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

   BENCHMARK(f32_sigmoid__neon_rr1_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

   BENCHMARK(f32_sigmoid__neon_rr1_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_p5_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);
 #endif  // XNN_ARCH_ARM || XNN_ARCH_ARM64

 #if XNN_ARCH_ARM64
   static void f32_sigmoid__neonfma_rr2_lut2048_p1_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_div, 4);
   }
   static void f32_sigmoid__neonfma_rr2_lut64_p2_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_div, 4);
   }
   static void f32_sigmoid__neonfma_rr2_p5_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_div, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut2048_p1_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_div, 4);
   }
   static void f32_sigmoid__neonfma_rr1_lut64_p2_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_div, 4);
   }
   static void f32_sigmoid__neonfma_rr1_p5_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_div, 4);
   }

   BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr2_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__neonfma_rr1_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
 #endif  // XNN_ARCH_ARM64

 #if XNN_ARCH_X86 || XNN_ARCH_X86_64
   static void f32_sigmoid__avx2_rr2_p5_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr2_p5_div, 8);
   }
   static void f32_sigmoid__avx2_rr2_p5_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr2_p5_nr2fma, 8);
   }
   static void f32_sigmoid__avx2_rr2_p5_nr1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr2_p5_nr1fma, 8);
   }
   static void f32_sigmoid__avx2_rr1_p5_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr1_p5_div, 8);
   }
   static void f32_sigmoid__avx2_rr1_p5_nr2fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr1_p5_nr2fma, 8);
   }
   static void f32_sigmoid__avx2_rr1_p5_nr1fma(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr1_p5_nr1fma, 8);
   }
   static void f32_sigmoid__sse2_p5_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__sse2_p5_div, 4);
   }

   BENCHMARK(f32_sigmoid__avx2_rr2_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__avx2_rr2_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__avx2_rr2_p5_nr1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__avx2_rr1_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__avx2_rr1_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__avx2_rr1_p5_nr1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
   BENCHMARK(f32_sigmoid__sse2_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
 #endif  // XNN_ARCH_X86 || XNN_ARCH_X86_64

 #if !XNN_ARCH_WASM && !XNN_ARCH_ASMJS
   static void f32_sigmoid__psimd_p5_div(benchmark::State& state) {
     SigmoidError(state, xnn_math_f32_sigmoid__psimd_p5_div, 4);
   }

   BENCHMARK(f32_sigmoid__psimd_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
 #endif  // !XNN_ARCH_WASM && !XNN_ARCH_ASMJS

 static void f32_sigmoid__scalar_lut2048_p1_div(benchmark::State& state) {
   SigmoidError(state, xnn_math_f32_sigmoid__scalar_lut2048_p1_div, 1);
 }
 static void f32_sigmoid__scalar_lut64_p2_div(benchmark::State& state) {
   SigmoidError(state, xnn_math_f32_sigmoid__scalar_lut64_p2_div, 1);
 }
 static void f32_sigmoid__scalar_p5_div(benchmark::State& state) {
   SigmoidError(state, xnn_math_f32_sigmoid__scalar_p5_div, 1);
 }

 BENCHMARK(f32_sigmoid__scalar_lut2048_p1_div)->Unit(benchmark::kMillisecond)->Iterations(1);
 BENCHMARK(f32_sigmoid__scalar_lut64_p2_div)->Unit(benchmark::kMillisecond)->Iterations(1);
 BENCHMARK(f32_sigmoid__scalar_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);

 #ifndef XNNPACK_BENCHMARK_NO_MAIN
 BENCHMARK_MAIN();
 #endif
	// Copyright 2019 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 <cfloat>
	#include <cmath>
	#include <functional>
	#include <random>
	#include <vector>

	#include <benchmark/benchmark.h>
	#include <fp16/fp16.h>

	#include <xnnpack/AlignedAllocator.h>
	#include <xnnpack/common.h>
	#include <xnnpack/math-stubs.h>


	static void SigmoidError(benchmark::State& state,
	xnn_f32_unary_math_function sigmoid,
	size_t tile_size)
	{
	// The smallest x for which sigmoidf(x) is normalized (-0x1.5D589Ep+6f).
	const uint32_t min_input = 0xC2AEAC4F;
	// The largest x for which sigmoidf(x) is not 1.0f (0x1.154244p+4f).
	const uint32_t max_input = 0x418AA122;
	// Number of tiles in one block of inputs/outputs. Combining multiple tiles in a block reduce function call overhead.
	const size_t num_tiles = 100;

	double max_ulp_error = 0.0;
	std::vector<float, AlignedAllocator<float, 64>> x(tile_size * num_tiles);
	std::vector<float, AlignedAllocator<float, 64>> y(tile_size * num_tiles);
	for (auto _ : state) {
	for (uint32_t n = min_input; int32_t(n) < 0; n -= tile_size * num_tiles) {
	for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
	x[i] = fp32_from_bits(std::max<uint32_t>(n - i, 0x80000000));
	}
	std::fill(y.begin(), y.end(), std::nanf(""));

	sigmoid(tile_size * num_tiles * sizeof(float), x.data(), y.data());

	for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
	const double e_ref = std::exp(double(x[i]));
	const double y_ref = e_ref / (e_ref + 1.0);
	const double abs_error = std::abs(y_ref - double(y[i]));
	const float y_abs = std::abs(y_ref);
	const float y_ulp = fp32_from_bits(fp32_to_bits(y_abs) + 1) - y_abs;
	max_ulp_error = std::max<double>(max_ulp_error, abs_error / y_ulp);
	}
	}
	for (uint32_t n = 0; n < max_input; n += tile_size * num_tiles) {
	for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
	x[i] = fp32_from_bits(std::min<uint32_t>(n + i, max_input));
	}
	std::fill(y.begin(), y.end(), std::nanf(""));

	sigmoid(tile_size * num_tiles * sizeof(float), x.data(), y.data());

	for (uint32_t i = 0; i < tile_size * num_tiles; i++) {
	const double y_ref = 1.0 / (1.0 + std::exp(-double(x[i])));
	const double abs_error = std::abs(y_ref - double(y[i]));
	const float y_abs = std::abs(y_ref);
	const float y_ulp = fp32_from_bits(fp32_to_bits(y_abs) + 1) - y_abs;
	max_ulp_error = std::max<double>(max_ulp_error, abs_error / y_ulp);
	}
	}
	}

	state.counters["ULPERROR"] = benchmark::Counter(max_ulp_error);
	}

	#if XNN_ARCH_ARM \|\| XNN_ARCH_ARM64
	static void f32_sigmoid__neon_frac_p9_p10_nr1recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_frac_p9_p10_nr1recps, 4);
	}

	static void f32_sigmoid__neon_rr2_lut2048_p1_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_rr2_lut2048_p1_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut2048_p1_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut2048_p1_nr1recps1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_nr1recps1fma, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut2048_p1_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_nr2fma, 4);
	}

	static void f32_sigmoid__neon_rr2_lut64_p2_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_rr2_lut64_p2_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut64_p2_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut64_p2_nr1recps1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_nr1recps1fma, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut64_p2_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_nr2fma, 4);
	}

	static void f32_sigmoid__neon_rr2_p5_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_rr2_p5_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr2_p5_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr2_p5_nr1recps1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_nr1recps1fma, 4);
	}
	static void f32_sigmoid__neonfma_rr2_p5_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_nr2fma, 4);
	}

	static void f32_sigmoid__neon_rr1_lut2048_p1_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_rr1_lut2048_p1_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut2048_p1_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut2048_p1_nr1recps1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_nr1recps1fma, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut2048_p1_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_nr2fma, 4);
	}

	static void f32_sigmoid__neon_rr1_lut64_p2_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_rr1_lut64_p2_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut64_p2_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut64_p2_nr1recps1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_nr1recps1fma, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut64_p2_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_nr2fma, 4);
	}

	static void f32_sigmoid__neon_rr1_p5_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neon_rr1_p5_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr1_p5_nr2recps(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_nr2recps, 4);
	}
	static void f32_sigmoid__neonfma_rr1_p5_nr1recps1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_nr1recps1fma, 4);
	}
	static void f32_sigmoid__neonfma_rr1_p5_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_nr2fma, 4);
	}

	BENCHMARK(f32_sigmoid__neon_frac_p9_p10_nr1recps)->Unit(benchmark::kMillisecond)->Iterations(1);

	BENCHMARK(f32_sigmoid__neon_rr2_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

	BENCHMARK(f32_sigmoid__neon_rr2_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

	BENCHMARK(f32_sigmoid__neon_rr2_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_p5_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

	BENCHMARK(f32_sigmoid__neon_rr1_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

	BENCHMARK(f32_sigmoid__neon_rr1_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);

	BENCHMARK(f32_sigmoid__neon_rr1_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_p5_nr2recps)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_p5_nr1recps1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	#endif // XNN_ARCH_ARM \|\| XNN_ARCH_ARM64

	#if XNN_ARCH_ARM64
	static void f32_sigmoid__neonfma_rr2_lut2048_p1_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut2048_p1_div, 4);
	}
	static void f32_sigmoid__neonfma_rr2_lut64_p2_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_lut64_p2_div, 4);
	}
	static void f32_sigmoid__neonfma_rr2_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr2_p5_div, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut2048_p1_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut2048_p1_div, 4);
	}
	static void f32_sigmoid__neonfma_rr1_lut64_p2_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_lut64_p2_div, 4);
	}
	static void f32_sigmoid__neonfma_rr1_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__neonfma_rr1_p5_div, 4);
	}

	BENCHMARK(f32_sigmoid__neonfma_rr2_lut2048_p1_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_lut64_p2_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr2_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut2048_p1_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_lut64_p2_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__neonfma_rr1_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	#endif // XNN_ARCH_ARM64

	#if XNN_ARCH_X86 \|\| XNN_ARCH_X86_64
	static void f32_sigmoid__avx2_rr2_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr2_p5_div, 8);
	}
	static void f32_sigmoid__avx2_rr2_p5_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr2_p5_nr2fma, 8);
	}
	static void f32_sigmoid__avx2_rr2_p5_nr1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr2_p5_nr1fma, 8);
	}
	static void f32_sigmoid__avx2_rr1_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr1_p5_div, 8);
	}
	static void f32_sigmoid__avx2_rr1_p5_nr2fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr1_p5_nr2fma, 8);
	}
	static void f32_sigmoid__avx2_rr1_p5_nr1fma(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__avx2_rr1_p5_nr1fma, 8);
	}
	static void f32_sigmoid__sse2_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__sse2_p5_div, 4);
	}

	BENCHMARK(f32_sigmoid__avx2_rr2_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__avx2_rr2_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__avx2_rr2_p5_nr1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__avx2_rr1_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__avx2_rr1_p5_nr2fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__avx2_rr1_p5_nr1fma)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__sse2_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	#endif // XNN_ARCH_X86 \|\| XNN_ARCH_X86_64

	#if !XNN_ARCH_WASM && !XNN_ARCH_ASMJS
	static void f32_sigmoid__psimd_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__psimd_p5_div, 4);
	}

	BENCHMARK(f32_sigmoid__psimd_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	#endif // !XNN_ARCH_WASM && !XNN_ARCH_ASMJS

	static void f32_sigmoid__scalar_lut2048_p1_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__scalar_lut2048_p1_div, 1);
	}
	static void f32_sigmoid__scalar_lut64_p2_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__scalar_lut64_p2_div, 1);
	}
	static void f32_sigmoid__scalar_p5_div(benchmark::State& state) {
	SigmoidError(state, xnn_math_f32_sigmoid__scalar_p5_div, 1);
	}

	BENCHMARK(f32_sigmoid__scalar_lut2048_p1_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__scalar_lut64_p2_div)->Unit(benchmark::kMillisecond)->Iterations(1);
	BENCHMARK(f32_sigmoid__scalar_p5_div)->Unit(benchmark::kMillisecond)->Iterations(1);

	#ifndef XNNPACK_BENCHMARK_NO_MAIN
	BENCHMARK_MAIN();
	#endif