/* benchmark_crc32.cc -- benchmark crc32 variants * Copyright (C) 2022 Nathan Moinvaziri * For conditions of distribution and use, see copyright notice in zlib.h */ #include extern "C" { # include "zbuild.h" # include "arch_functions.h" # include "../test_cpu_features.h" } #define BUFSIZE ((4 * 1024 * 1024) + 64) class crc32: public benchmark::Fixture { private: uint32_t *testdata; public: void SetUp(::benchmark::State& state) { testdata = (uint32_t *)zng_alloc_aligned(BUFSIZE, 64); if (testdata == NULL) { state.SkipWithError("malloc failed"); return; } for (uint32_t i = 0; i < BUFSIZE/sizeof(uint32_t); i++) { testdata[i] = rand(); } } // Benchmark CRC32, with rolling buffer misalignment for consistent results void Bench(benchmark::State& state, crc32_func crc32, const int DO_ALIGNED) { int misalign = 0; uint32_t hash = 0; for (auto _ : state) { hash = crc32(hash, (const unsigned char *)testdata + misalign, (size_t)state.range(0)); if (misalign >= 63) misalign = 0; else misalign += (DO_ALIGNED) ? 16 : 1; // Prevent the result from being optimized away benchmark::DoNotOptimize(hash); } } void TearDown(const ::benchmark::State&) { zng_free_aligned(testdata); } }; #define BENCHMARK_CRC32_MISALIGNED(name, hashfunc, support_flag) \ BENCHMARK_DEFINE_F(crc32, name)(benchmark::State& state) { \ if (!(support_flag)) { \ state.SkipWithError("CPU does not support " #name); \ } \ Bench(state, hashfunc, 0); \ } \ BENCHMARK_REGISTER_F(crc32, name)->Arg(1)->Arg(8)->Arg(12)->Arg(16)->Arg(32)->Arg(64)->Arg(512)->Arg(4<<10)->Arg(32<<10)->Arg(256<<10)->Arg(4096<<10); // Aligned #define ALIGNED_NAME(name) name##_aligned #define BENCHMARK_CRC32_ALIGNED(name, hashfunc, support_flag) \ BENCHMARK_DEFINE_F(crc32, ALIGNED_NAME(name))(benchmark::State& state) { \ if (!(support_flag)) { \ state.SkipWithError("CPU does not support " #name); \ } \ Bench(state, hashfunc, 1); \ } \ BENCHMARK_REGISTER_F(crc32, ALIGNED_NAME(name))->Arg(8)->Arg(12)->Arg(16)->Arg(32)->Arg(64)->Arg(512)->Arg(4<<10)->Arg(32<<10)->Arg(256<<10)->Arg(4096<<10); // Queue both misaligned and aligned for each benchmark #define BENCHMARK_CRC32(name, hashfunc, support_flag) \ BENCHMARK_CRC32_MISALIGNED(name, hashfunc, support_flag); \ BENCHMARK_CRC32_ALIGNED(name, hashfunc, support_flag); BENCHMARK_CRC32(braid, crc32_braid, 1); #ifdef DISABLE_RUNTIME_CPU_DETECTION BENCHMARK_CRC32(native, native_crc32, 1); #else #ifndef WITHOUT_CHORBA BENCHMARK_CRC32(chorba_c, crc32_chorba, 1); #endif #ifndef WITHOUT_CHORBA_SSE # ifdef X86_SSE2 BENCHMARK_CRC32(chorba_sse2, crc32_chorba_sse2, test_cpu_features.x86.has_sse2); # endif # ifdef X86_SSE41 BENCHMARK_CRC32(chorba_sse41, crc32_chorba_sse41, test_cpu_features.x86.has_sse41); # endif #endif #ifdef ARM_CRC32 BENCHMARK_CRC32(armv8, crc32_armv8, test_cpu_features.arm.has_crc32); #endif #ifdef ARM_PMULL_EOR3 BENCHMARK_CRC32(armv8_pmull_eor3, crc32_armv8_pmull_eor3, test_cpu_features.arm.has_crc32 && test_cpu_features.arm.has_pmull && test_cpu_features.arm.has_eor3); #endif #ifdef RISCV_CRC32_ZBC BENCHMARK_CRC32(riscv, crc32_riscv64_zbc, test_cpu_features.riscv.has_zbc); #endif #ifdef POWER8_VSX_CRC32 BENCHMARK_CRC32(power8, crc32_power8, test_cpu_features.power.has_arch_2_07); #endif #ifdef S390_CRC32_VX BENCHMARK_CRC32(vx, crc32_s390_vx, test_cpu_features.s390.has_vx); #endif #ifdef X86_PCLMULQDQ_CRC BENCHMARK_CRC32(pclmulqdq, crc32_pclmulqdq, test_cpu_features.x86.has_pclmulqdq); #endif #ifdef X86_VPCLMULQDQ_AVX2 BENCHMARK_CRC32(vpclmulqdq_avx2, crc32_vpclmulqdq_avx2, (test_cpu_features.x86.has_pclmulqdq && test_cpu_features.x86.has_avx2 && test_cpu_features.x86.has_vpclmulqdq)); #endif #ifdef X86_VPCLMULQDQ_AVX512 BENCHMARK_CRC32(vpclmulqdq_avx512, crc32_vpclmulqdq_avx512, (test_cpu_features.x86.has_pclmulqdq && test_cpu_features.x86.has_avx512_common && test_cpu_features.x86.has_vpclmulqdq)); #endif #ifdef LOONGARCH_CRC BENCHMARK_CRC32(loongarch64, crc32_loongarch64, test_cpu_features.loongarch.has_crc); #endif #endif