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Diffstat (limited to 'third_party/abseil_cpp/absl/random/internal/nanobenchmark.h')
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diff --git a/third_party/abseil_cpp/absl/random/internal/nanobenchmark.h b/third_party/abseil_cpp/absl/random/internal/nanobenchmark.h new file mode 100644 index 000000000000..a5097ba27b0f --- /dev/null +++ b/third_party/abseil_cpp/absl/random/internal/nanobenchmark.h @@ -0,0 +1,172 @@ +// Copyright 2017 Google Inc. All Rights Reserved. +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// https://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +#ifndef ABSL_RANDOM_INTERNAL_NANOBENCHMARK_H_ +#define ABSL_RANDOM_INTERNAL_NANOBENCHMARK_H_ + +// Benchmarks functions of a single integer argument with realistic branch +// prediction hit rates. Uses a robust estimator to summarize the measurements. +// The precision is about 0.2%. +// +// Examples: see nanobenchmark_test.cc. +// +// Background: Microbenchmarks such as http://github.com/google/benchmark +// can measure elapsed times on the order of a microsecond. Shorter functions +// are typically measured by repeating them thousands of times and dividing +// the total elapsed time by this count. Unfortunately, repetition (especially +// with the same input parameter!) influences the runtime. In time-critical +// code, it is reasonable to expect warm instruction/data caches and TLBs, +// but a perfect record of which branches will be taken is unrealistic. +// Unless the application also repeatedly invokes the measured function with +// the same parameter, the benchmark is measuring something very different - +// a best-case result, almost as if the parameter were made a compile-time +// constant. This may lead to erroneous conclusions about branch-heavy +// algorithms outperforming branch-free alternatives. +// +// Our approach differs in three ways. Adding fences to the timer functions +// reduces variability due to instruction reordering, improving the timer +// resolution to about 40 CPU cycles. However, shorter functions must still +// be invoked repeatedly. For more realistic branch prediction performance, +// we vary the input parameter according to a user-specified distribution. +// Thus, instead of VaryInputs(Measure(Repeat(func))), we change the +// loop nesting to Measure(Repeat(VaryInputs(func))). We also estimate the +// central tendency of the measurement samples with the "half sample mode", +// which is more robust to outliers and skewed data than the mean or median. + +// NOTE: for compatibility with multiple translation units compiled with +// distinct flags, avoid #including headers that define functions. + +#include <stddef.h> +#include <stdint.h> + +#include "absl/base/config.h" + +namespace absl { +ABSL_NAMESPACE_BEGIN +namespace random_internal_nanobenchmark { + +// Input influencing the function being measured (e.g. number of bytes to copy). +using FuncInput = size_t; + +// "Proof of work" returned by Func to ensure the compiler does not elide it. +using FuncOutput = uint64_t; + +// Function to measure: either 1) a captureless lambda or function with two +// arguments or 2) a lambda with capture, in which case the first argument +// is reserved for use by MeasureClosure. +using Func = FuncOutput (*)(const void*, FuncInput); + +// Internal parameters that determine precision/resolution/measuring time. +struct Params { + // For measuring timer overhead/resolution. Used in a nested loop => + // quadratic time, acceptable because we know timer overhead is "low". + // constexpr because this is used to define array bounds. + static constexpr size_t kTimerSamples = 256; + + // Best-case precision, expressed as a divisor of the timer resolution. + // Larger => more calls to Func and higher precision. + size_t precision_divisor = 1024; + + // Ratio between full and subset input distribution sizes. Cannot be less + // than 2; larger values increase measurement time but more faithfully + // model the given input distribution. + size_t subset_ratio = 2; + + // Together with the estimated Func duration, determines how many times to + // call Func before checking the sample variability. Larger values increase + // measurement time, memory/cache use and precision. + double seconds_per_eval = 4E-3; + + // The minimum number of samples before estimating the central tendency. + size_t min_samples_per_eval = 7; + + // The mode is better than median for estimating the central tendency of + // skewed/fat-tailed distributions, but it requires sufficient samples + // relative to the width of half-ranges. + size_t min_mode_samples = 64; + + // Maximum permissible variability (= median absolute deviation / center). + double target_rel_mad = 0.002; + + // Abort after this many evals without reaching target_rel_mad. This + // prevents infinite loops. + size_t max_evals = 9; + + // Retry the measure loop up to this many times. + size_t max_measure_retries = 2; + + // Whether to print additional statistics to stdout. + bool verbose = true; +}; + +// Measurement result for each unique input. +struct Result { + FuncInput input; + + // Robust estimate (mode or median) of duration. + float ticks; + + // Measure of variability (median absolute deviation relative to "ticks"). + float variability; +}; + +// Ensures the thread is running on the specified cpu, and no others. +// Reduces noise due to desynchronized socket RDTSC and context switches. +// If "cpu" is negative, pin to the currently running core. +void PinThreadToCPU(const int cpu = -1); + +// Returns tick rate, useful for converting measurements to seconds. Invariant +// means the tick counter frequency is independent of CPU throttling or sleep. +// This call may be expensive, callers should cache the result. +double InvariantTicksPerSecond(); + +// Precisely measures the number of ticks elapsed when calling "func" with the +// given inputs, shuffled to ensure realistic branch prediction hit rates. +// +// "func" returns a 'proof of work' to ensure its computations are not elided. +// "arg" is passed to Func, or reserved for internal use by MeasureClosure. +// "inputs" is an array of "num_inputs" (not necessarily unique) arguments to +// "func". The values should be chosen to maximize coverage of "func". This +// represents a distribution, so a value's frequency should reflect its +// probability in the real application. Order does not matter; for example, a +// uniform distribution over [0, 4) could be represented as {3,0,2,1}. +// Returns how many Result were written to "results": one per unique input, or +// zero if the measurement failed (an error message goes to stderr). +size_t Measure(const Func func, const void* arg, const FuncInput* inputs, + const size_t num_inputs, Result* results, + const Params& p = Params()); + +// Calls operator() of the given closure (lambda function). +template <class Closure> +static FuncOutput CallClosure(const void* f, const FuncInput input) { + return (*reinterpret_cast<const Closure*>(f))(input); +} + +// Same as Measure, except "closure" is typically a lambda function of +// FuncInput -> FuncOutput with a capture list. +template <class Closure> +static inline size_t MeasureClosure(const Closure& closure, + const FuncInput* inputs, + const size_t num_inputs, Result* results, + const Params& p = Params()) { + return Measure(reinterpret_cast<Func>(&CallClosure<Closure>), + reinterpret_cast<const void*>(&closure), inputs, num_inputs, + results, p); +} + +} // namespace random_internal_nanobenchmark +ABSL_NAMESPACE_END +} // namespace absl + +#endif // ABSL_RANDOM_INTERNAL_NANOBENCHMARK_H_ |