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159 lines
5.4 KiB
159 lines
5.4 KiB
4 months ago
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// Copyright 2020 Google LLC
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//
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree.
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#include <algorithm>
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#include <cmath>
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#include <functional>
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#include <random>
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#include <vector>
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#include <benchmark/benchmark.h>
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#include "bench/utils.h"
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#include <xnnpack/AlignedAllocator.h>
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#include <xnnpack/common.h>
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#include <xnnpack/hswish.h>
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#include <xnnpack/params.h>
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#include <xnnpack/params-init.h>
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static void f32_hswish(
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benchmark::State& state,
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xnn_f32_hswish_ukernel_function hswish,
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benchmark::utils::IsaCheckFunction isa_check = nullptr)
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{
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if (isa_check && !isa_check(state)) {
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return;
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}
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const size_t elements = state.range(0);
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std::vector<float, AlignedAllocator<float, 64>> input(elements);
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std::vector<float, AlignedAllocator<float, 64>> output(elements);
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std::random_device random_device;
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auto rng = std::mt19937(random_device());
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auto f32rng = std::bind(std::uniform_real_distribution<float>(-10.0f, 10.0f), std::ref(rng));
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std::generate(input.begin(), input.end(), std::ref(f32rng));
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std::fill(output.begin(), output.end(), std::nanf(""));
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const union xnn_f32_hswish_params params = xnn_init_f32_hswish_params();
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for (auto _ : state) {
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hswish(elements * sizeof(float), input.data(), output.data(), ¶ms);
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}
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const uint64_t cpu_frequency = benchmark::utils::GetCurrentCpuFrequency();
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if (cpu_frequency != 0) {
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state.counters["cpufreq"] = cpu_frequency;
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}
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const size_t elements_per_iteration = elements;
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state.counters["elements"] =
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benchmark::Counter(uint64_t(state.iterations()) * elements_per_iteration, benchmark::Counter::kIsRate);
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const size_t bytes_per_iteration = 2 * elements * sizeof(float);
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state.counters["bytes"] =
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benchmark::Counter(uint64_t(state.iterations()) * bytes_per_iteration, benchmark::Counter::kIsRate);
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}
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#if XNN_ARCH_ARM || XNN_ARCH_ARM64
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BENCHMARK_CAPTURE(f32_hswish, neon_x4, xnn_f32_hswish_ukernel__neon_x4, benchmark::utils::CheckNEON)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, neon_x8, xnn_f32_hswish_ukernel__neon_x8, benchmark::utils::CheckNEON)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, neon_x16, xnn_f32_hswish_ukernel__neon_x16, benchmark::utils::CheckNEON)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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#endif // XNN_ARCH_ARM || XNN_ARCH_ARM64
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#if XNN_ARCH_X86 || XNN_ARCH_X86_64
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BENCHMARK_CAPTURE(f32_hswish, sse_x4, xnn_f32_hswish_ukernel__sse_x4)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, sse_x8, xnn_f32_hswish_ukernel__sse_x8)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, avx_x8, xnn_f32_hswish_ukernel__avx_x8, benchmark::utils::CheckAVX)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, avx_x16, xnn_f32_hswish_ukernel__avx_x16, benchmark::utils::CheckAVX)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, fma3_x8, xnn_f32_hswish_ukernel__fma3_x8, benchmark::utils::CheckFMA3)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, fma3_x16, xnn_f32_hswish_ukernel__fma3_x16, benchmark::utils::CheckFMA3)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, avx512f_x16, xnn_f32_hswish_ukernel__avx512f_x16, benchmark::utils::CheckAVX512F)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, avx512f_x32, xnn_f32_hswish_ukernel__avx512f_x32, benchmark::utils::CheckAVX512F)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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#endif // XNN_ARCH_X86 || XNN_ARCH_X86_64
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#if XNN_ARCH_WASMSIMD
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BENCHMARK_CAPTURE(f32_hswish, wasmsimd_x4, xnn_f32_hswish_ukernel__wasmsimd_x4)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, wasmsimd_x8, xnn_f32_hswish_ukernel__wasmsimd_x8)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, wasmsimd_x16, xnn_f32_hswish_ukernel__wasmsimd_x16)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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#endif // XNN_ARCH_WASMSIMD
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#if XNN_ARCH_WASM || XNN_ARCH_WASMSIMD
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BENCHMARK_CAPTURE(f32_hswish, wasm_x1, xnn_f32_hswish_ukernel__wasm_x1)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, wasm_x2, xnn_f32_hswish_ukernel__wasm_x2)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, wasm_x4, xnn_f32_hswish_ukernel__wasm_x4)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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#endif // XNN_ARCH_WASM || XNN_ARCH_WASMSIMD
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BENCHMARK_CAPTURE(f32_hswish, scalar_x1, xnn_f32_hswish_ukernel__scalar_x1)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, scalar_x2, xnn_f32_hswish_ukernel__scalar_x2)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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BENCHMARK_CAPTURE(f32_hswish, scalar_x4, xnn_f32_hswish_ukernel__scalar_x4)
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->RangeMultiplier(10)
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->Range(1000, 1000000)
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->UseRealTime();
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#ifndef XNNPACK_BENCHMARK_NO_MAIN
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BENCHMARK_MAIN();
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#endif
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