339 lines
14 KiB
C++
339 lines
14 KiB
C++
/*
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* SPDX-FileCopyrightText: Copyright (c) 1993-2026 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
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* SPDX-License-Identifier: Apache-2.0
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef TRT_SAMPLE_UTILS_H
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#define TRT_SAMPLE_UTILS_H
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#include <cmath>
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#include <fstream>
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#include <iostream>
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#include <memory>
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#include <numeric>
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#include <random>
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#include <string>
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#include <unordered_map>
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#include <vector>
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#include <cuda.h>
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#include <cuda_fp16.h>
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#include <optional>
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#include "NvInfer.h"
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#include "common.h"
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#include "logger.h"
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#include "logging.h"
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#include "sampleOptions.h"
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#define SMP_RETVAL_IF_FALSE(condition, msg, retval, err) \
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{ \
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if ((condition) == false) \
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{ \
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(err) << (msg) << std::endl; \
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return retval; \
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} \
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}
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namespace sample
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{
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template <typename T>
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inline T roundUp(T m, T n)
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{
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return ((m + n - 1) / n) * n;
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}
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//! comps is the number of components in a vector. Ignored if vecDim < 0.
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int64_t volume(nvinfer1::Dims const& dims, nvinfer1::Dims const& strides, int32_t vecDim, int32_t comps, int32_t batch);
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using samplesCommon::volume;
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nvinfer1::Dims toDims(std::vector<int64_t> const& vec);
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template <typename T, typename std::enable_if<std::is_integral<T>::value, bool>::type = true>
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void fillBuffer(void* buffer, int64_t volume, int32_t min, int32_t max);
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template <typename T, typename std::enable_if<!std::is_integral<T>::value, bool>::type = true>
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void fillBuffer(void* buffer, int64_t volume, float min, float max);
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template <typename T>
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void dumpBuffer(void const* buffer, std::string const& separator, std::ostream& os, nvinfer1::Dims const& dims,
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nvinfer1::Dims const& strides, int32_t vectorDim, int32_t spv);
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void dumpInt4Buffer(void const* buffer, std::string const& separator, std::ostream& os, Dims const& dims,
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Dims const& strides, int32_t vectorDim, int32_t spv);
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void loadFromFile(std::string const& fileName, char* dst, size_t size);
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std::vector<std::string> splitToStringVec(std::string const& option, char separator, int64_t maxSplit = -1);
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bool broadcastIOFormats(std::vector<IOFormat> const& formats, size_t nbBindings, bool isInput = true);
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int32_t getCudaDriverVersion();
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int32_t getCudaRuntimeVersion();
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void sparsify(nvinfer1::INetworkDefinition& network, std::vector<std::vector<int8_t>>& sparseWeights);
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void sparsify(nvinfer1::Weights const& weights, int32_t k, int32_t rs, std::vector<int8_t>& sparseWeights);
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// Walk the weights elements and overwrite (at most) 2 out of 4 elements to 0.
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template <typename T>
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void sparsify(T const* values, int64_t count, int32_t k, int32_t rs, std::vector<int8_t>& sparseWeights);
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template <typename L>
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void setSparseWeights(L& l, int32_t k, int32_t rs, std::vector<int8_t>& sparseWeights);
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// Sparsify the weights of Constant layers that are fed to MatMul via Shuffle layers.
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// Forward analysis on the API graph to determine which weights to sparsify.
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void sparsifyMatMulKernelWeights(
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nvinfer1::INetworkDefinition& network, std::vector<std::vector<int8_t>>& sparseWeights);
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template <typename T>
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void transpose2DWeights(void* dst, void const* src, int32_t const m, int32_t const n);
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//! A helper function to match a target string with a pattern where the pattern can contain up to one wildcard ('*')
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//! character that matches to any strings.
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bool matchStringWithOneWildcard(std::string const& pattern, std::string const& target);
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//! A helper method to find an item from an unordered_map. If the exact match exists, this is identical to
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//! map.find(target). If the exact match does not exist, it returns the first plausible match, taking up to one wildcard
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//! into account. If there is no plausible match, then it returns map.end().
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template <typename T>
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typename std::unordered_map<std::string, T>::const_iterator findPlausible(
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std::unordered_map<std::string, T> const& map, std::string const& target)
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{
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auto res = map.find(target);
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if (res == map.end())
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{
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res = std::find_if(
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map.begin(), map.end(), [&](typename std::unordered_map<std::string, T>::value_type const& item) {
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return matchStringWithOneWildcard(item.first, target);
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});
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}
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return res;
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}
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// ==== Common argument parsing utilities ====
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//! Validate that a value is not empty, log error if it is
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bool validateNonEmpty(std::string const& value, std::string const& flagName);
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//! Validate remote auto tuning config format
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bool validateRemoteAutoTuningConfig(std::string const& config);
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//! Ensure directory path ends with '/'
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inline std::string normalizeDirectoryPath(std::string const& dirPath)
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{
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std::string result = dirPath;
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if (!result.empty() && result.back() != '/')
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{
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result.push_back('/');
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}
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return result;
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}
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//! Sanitizes the remote auto tuning config string by removing sensitive credentials
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//! Removes usernames and passwords from URL-style config strings for security.
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//! Example: "ssh://user:pass@host:22" becomes "ssh://***:***@host:22"
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std::string sanitizeRemoteAutoTuningConfig(std::string const& config);
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//! Sanitizes command line arguments for logging, removing sensitive credentials
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//! Processes argv array and sanitizes sensitive arguments like remoteAutoTuningConfig
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//! @param argc Number of arguments
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//! @param argv Array of argument strings
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//! @return Vector of sanitized argument strings
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std::vector<std::string> sanitizeArgv(int32_t argc, char** argv);
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//! Interface for accuracy validation
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//! This interface provides a way to calculate the accuracy gap between the actual and reference outputs.
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//! Since all the return value is a "loss value", the lower the return value, the better accuracy it is.
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template <typename T>
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class IAccuracyValidator
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{
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public:
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virtual ~IAccuracyValidator() = default;
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virtual double calculateAccuracy(std::vector<T> const& actual, std::vector<T> const& reference) = 0;
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};
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//! L0 accuracy validator calculates element-wise accuracy using the PyTorch/NumPy allclose formula.
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//! An element matches if: |actual[i] - ref[i]| <= atol + rtol * |ref[i]|
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//! accuracy = (number of mismatching elements) / N
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//! Returns the mismatch ratio (0.0 means perfect match, 1.0 means all elements mismatch).
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template <typename T>
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class L0AccuracyValidator : public IAccuracyValidator<T>
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{
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public:
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L0AccuracyValidator(double atol, double rtol)
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: mAtol(atol)
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, mRtol(rtol)
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{
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}
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double calculateAccuracy(std::vector<T> const& actual, std::vector<T> const& reference) override;
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private:
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double mAtol;
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double mRtol;
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};
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//! L1 accuracy validator calculates mean absolute error.
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//! accuracy = Sum(|actual[i] - ref[i]|) / N
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//! Returns the mean absolute error (0.0 means perfect match).
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template <typename T>
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class L1AccuracyValidator : public IAccuracyValidator<T>
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{
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public:
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double calculateAccuracy(std::vector<T> const& actual, std::vector<T> const& reference) override;
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};
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//! L2 accuracy validator calculates mean squared error.
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//! accuracy = Sum(|actual[i] - ref[i]|^2) / N
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//! Returns the mean squared error (0.0 means perfect match).
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template <typename T>
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class L2AccuracyValidator : public IAccuracyValidator<T>
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{
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public:
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double calculateAccuracy(std::vector<T> const& actual, std::vector<T> const& reference) override;
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};
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//! LInf accuracy validator calculates maximum absolute error.
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//! accuracy = Max(|actual[i] - ref[i]|)
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//! Returns the max absolute error (0.0 means perfect match).
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template <typename T>
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class LInfAccuracyValidator : public IAccuracyValidator<T>
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{
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public:
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double calculateAccuracy(std::vector<T> const& actual, std::vector<T> const& reference) override;
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};
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//! Cosine similarity validator calculates 1 - cosine_similarity.
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//! cosine_sim = Sum(actual[i] * ref[i]) / (sqrt(Sum(actual[i]^2)) * sqrt(Sum(ref[i]^2)))
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//! accuracy loss = 1 - cosine_sim
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//! Returns 1 - cosine_similarity (0.0 means perfect match).
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template <typename T>
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class CosineSimilarityValidator : public IAccuracyValidator<T>
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{
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public:
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double calculateAccuracy(std::vector<T> const& actual, std::vector<T> const& reference) override;
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};
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//! \brief Get human-readable name string for an accuracy validation algorithm.
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//! \param[in] algorithm The accuracy validation algorithm enum value.
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//! \return Name string (e.g., "L0", "L1", "Cosine").
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inline std::string getAlgorithmName(AccuracyValidationAlgorithm algorithm)
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{
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switch (algorithm)
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{
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case AccuracyValidationAlgorithm::kL0: return "L0";
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case AccuracyValidationAlgorithm::kL1: return "L1";
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case AccuracyValidationAlgorithm::kL2: return "L2";
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case AccuracyValidationAlgorithm::kLInf: return "LInf";
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case AccuracyValidationAlgorithm::kCosineSimilarity: return "Cosine";
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default: return "Unknown";
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}
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}
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//! \brief Factory function to create an accuracy validator based on algorithm type.
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//! \param[in] algorithm The accuracy validation algorithm to use.
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//! \param[in] atol Absolute tolerance (only used by L0 algorithm).
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//! \param[in] rtol Relative tolerance (only used by L0 algorithm).
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//! \return Unique pointer to the appropriate IAccuracyValidator implementation.
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template <typename T>
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std::unique_ptr<IAccuracyValidator<T>> createAccuracyValidator(
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AccuracyValidationAlgorithm algorithm, float atol = 1e-5F, float rtol = 1e-5F)
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{
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switch (algorithm)
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{
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case AccuracyValidationAlgorithm::kL0: return std::make_unique<L0AccuracyValidator<T>>(atol, rtol);
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case AccuracyValidationAlgorithm::kL1: return std::make_unique<L1AccuracyValidator<T>>();
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case AccuracyValidationAlgorithm::kL2: return std::make_unique<L2AccuracyValidator<T>>();
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case AccuracyValidationAlgorithm::kLInf: return std::make_unique<LInfAccuracyValidator<T>>();
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case AccuracyValidationAlgorithm::kCosineSimilarity: return std::make_unique<CosineSimilarityValidator<T>>();
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}
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ASSERT(false && "Unknown Accuracy Validation Algorithm");
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return nullptr;
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}
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//! \brief Cheap argv pre-scan. Returns true if some `argv[i]` exactly equals `flag`
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//! or starts with `flag` + "=". Used by main() before option parsing to dispatch
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//! between trtexec single-run mode and the tuning loop.
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[[nodiscard]] bool peekArg(int32_t argc, char** argv, char const* flag);
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// ============================================================================
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// Tuning cache I/O (used by --tuneBuildRoutes / --continue).
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// Header is a single JSON object on line 1; iterations are JSON Lines after.
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// ============================================================================
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//! \brief Reconstruct a shell-safe command line string from argc/argv.
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std::string buildShellQuotedCmdLine(int32_t argc, char** argv);
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//! \brief Resolve a file path to an absolute path using POSIX realpath().
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//! Empty input or realpath() failure returns the input unchanged.
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std::string resolveAbsolutePath(std::string const& path);
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//! \brief Write the tuning cache file header (line 1, JSON object).
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void writeTuningCacheHeader(std::string const& cacheFilePath, AllOptions const& options, int32_t argc, char** argv,
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std::string const& tunerVersion, std::string const& defaultBuildRoute);
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//! \brief Append one iteration line to the cache file. Fields: iter, build_route, crash,
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//! error_message, accuracy_loss, gpu_time. Crashed iterations have null accuracy/gpu.
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void writeTuningCacheIteration(std::string const& cacheFilePath, uint64_t iter, std::string const& buildRoute,
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bool crashed, std::string const& errorMessage, std::unordered_map<std::string, double> const& accuracyLossValues,
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double gpuTimeMs);
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//! \struct TuningCacheHeader
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//! \brief Parsed contents of the cache header, returned by readTuningCacheHeader().
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struct TuningCacheHeader
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{
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std::vector<std::string> argv; //!< Original command line with file paths absolute.
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std::string tuningExpr; //!< Expanded --tuneBuildRoutes expression.
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int64_t completedIterations{0}; //!< Number of iteration lines after the header.
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};
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//! \brief Read and parse the cache file's header line + count completed iteration lines.
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std::optional<TuningCacheHeader> readTuningCacheHeader(std::string const& cacheFilePath);
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//! \brief Rebuild argv for a --continue resume. argv[0] is replaced with currentExePath;
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//! --tuneBuildRoutes is set to the cached expanded expression; --continue and
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//! --tuningCacheFile are stripped from the stored argv and the cache path is re-appended.
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std::vector<std::string> reconstructArgvFromCacheHeader(
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TuningCacheHeader const& header, std::string const& currentExePath, std::string const& cacheFilePath);
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//! \struct CachedIterationResult
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//! \brief Minimal per-iteration fields from the cache, used to reconstruct mixed-mode positive knobs.
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struct CachedIterationResult
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{
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bool crashed{true};
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double gpuTimeMs{0.0};
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};
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//! \brief Read up to maxIterations iteration lines from the cache and extract (crashed, gpu_time).
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std::vector<CachedIterationResult> readCachedIterationResults(std::string const& cacheFilePath, int64_t maxIterations);
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namespace tuningCache
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{
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constexpr char const* kIter = "iter";
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constexpr char const* kBuildRoute = "build_route";
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constexpr char const* kCrash = "crash";
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constexpr char const* kErrorMessage = "error_message";
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constexpr char const* kAccuracyLoss = "accuracy_loss";
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constexpr char const* kGpuTime = "gpu_time";
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} // namespace tuningCache
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} // namespace sample
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#endif // TRT_SAMPLE_UTILS_H
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