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gemma.cpp/compression/compress_weights.cc

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// Copyright 2024 Google LLC
// SPDX-License-Identifier: Apache-2.0
//
// 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.
// Command line tool to create compressed weights.
// Compiles this file for multiple architectures via "foreach_target.h", to
// which we pass the filename via macro 'argument'.
#undef HWY_TARGET_INCLUDE
#define HWY_TARGET_INCLUDE \
"compression/compress_weights.cc" // NOLINT
#include "hwy/foreach_target.h" // IWYU pragma: keep
#include "hwy/highway.h"
// After highway.h
#include "compression/compress-inl.h"
#ifndef GEMMA_COMPRESS_WEIGHTS_ONCE
#define GEMMA_COMPRESS_WEIGHTS_ONCE
#include <stddef.h>
#include <stdio.h>
#include <algorithm> // std::clamp
#include <cstdlib>
#include <iostream>
#include <string>
#include <thread> // NOLINT
#include <vector>
#include "compression/compress.h"
#include "compression/io.h" // Path
#include "gemma/common.h" // Model
#include "gemma/weights.h"
#include "util/allocator.h"
#include "util/args.h"
#include "hwy/base.h"
#include "hwy/contrib/thread_pool/thread_pool.h"
namespace gcpp {
namespace {
} // namespace
struct Args : public ArgsBase<Args> {
static constexpr size_t kDefaultNumThreads = ~size_t{0};
void ChooseNumThreads() {
if (num_threads == kDefaultNumThreads) {
// This is a rough heuristic, replace with something better in the future.
num_threads = static_cast<size_t>(std::clamp(
static_cast<int>(std::thread::hardware_concurrency()) - 2, 1, 18));
}
}
public:
Args(int argc, char* argv[]) {
InitAndParse(argc, argv);
ChooseNumThreads();
}
// Returns error string or nullptr if OK.
const char* Validate() {
ModelTraining model_training;
if (const char* err = ParseModelTypeAndTraining(model_type_str, model_type_,
model_training)) {
return err;
}
if (const char* err = ParseType(weight_type_str, weight_type_)) {
return err;
}
if (weights.path.empty()) {
return "Missing --weights flag, a file for the uncompressed model.";
}
if (compressed_weights.path.empty()) {
return "Missing --compressed_weights flag, a file for the compressed "
"model.";
}
if (!weights.Exists()) {
return "Can't open file specified with --weights flag.";
}
return nullptr;
}
Path weights; // uncompressed weights file location
Path compressed_weights; // compressed weights file location
std::string model_type_str;
std::string weight_type_str;
size_t num_threads;
template <class Visitor>
void ForEach(const Visitor& visitor) {
visitor(weights, "weights", Path(),
"Path to model weights (.bin) file.\n"
" Required argument.");
visitor(model_type_str, "model", std::string(),
"Model type\n 2b-it = 2B parameters, instruction-tuned\n "
"2b-pt = 2B parameters, pretrained\n 7b-it = 7B parameters "
"instruction-tuned\n 7b-pt = 7B parameters, pretrained\n "
"gr2b-it = griffin 2B parameters, instruction-tuned\n "
"gr2b-pt = griffin 2B parameters, pretrained\n "
" Required argument.");
visitor(weight_type_str, "weight_type", std::string("sfp"),
"Weight type\n f32 = float, bf16 = bfloat16, SFP = 8-bit FP\n"
" Required argument.");
visitor(compressed_weights, "compressed_weights", Path(),
"Path name where compressed weights (.sbs) file will be written.\n"
" Required argument.");
visitor(num_threads, "num_threads",
kDefaultNumThreads, // see ChooseNumThreads
"Number of threads to use.\n Default = Estimate of the "
"number of supported concurrent threads.",
2);
}
// Uninitialized before Validate, must call after that.
gcpp::Model ModelType() const { return model_type_; }
gcpp::Type WeightType() const { return weight_type_; }
private:
Model model_type_;
Type weight_type_;
};
void ShowHelp(gcpp::Args& args) {
std::cerr
<< "Usage:\n./compress_weights --weights <path to uncompressed weights> "
" --model <model type> --compressed_weights <output path>\n";
std::cerr << "\n*Arguments*\n\n";
args.Help();
std::cerr << "\n";
}
} // namespace gcpp
#endif // GEMMA_COMPRESS_WEIGHTS_ONCE
// SIMD code, compiled once per target.
HWY_BEFORE_NAMESPACE();
namespace gcpp {
namespace HWY_NAMESPACE {
template <class Configs>
void CompressWeights(const Path& weights_path,
const Path& compressed_weights_path, Model model_type,
Type weight_type, hwy::ThreadPool& pool) {
if (!weights_path.Exists()) {
HWY_ABORT("The model weights file '%s' does not exist.",
weights_path.path.c_str());
}
printf("Compressing weights from %s to %s\n", weights_path.path.c_str(),
compressed_weights_path.path.c_str());
using CConfig = typename Configs::c;
using UCConfig = typename Configs::uc;
// Allocate compressed weights.
using CWeights = CompressedWeights<CConfig>;
ByteStorageT c_weights_u8 = AllocateCompressedWeights<CConfig>()(pool);
CWeights* c_weights = reinterpret_cast<CWeights*>(c_weights_u8.get());
// Allocate uncompressed weights.
using UCWeights = CompressedWeights<UCConfig>;
ByteStorageT uc_weights_u8 = AllocateCompressedWeights<UCConfig>()(pool);
UCWeights* uc_weights = reinterpret_cast<UCWeights*>(uc_weights_u8.get());
// Get uncompressed weights, compress, and store.
FILE* fptr = fopen(weights_path.path.c_str(), "rb");
if (fptr == nullptr) {
HWY_ABORT("Failed to open model file %s - does it exist?",
weights_path.path.c_str());
}
bool ok = true;
uint64_t total_size = 0;
CompressedWeights<UCConfig>::ForEachTensor(
{uc_weights}, ForEachType::kLoadNoToc,
[&](const char* name, hwy::Span<MatPtr*> tensors) {
fprintf(stderr, "Loading Parameters (size %zu): %s\n",
tensors[0]->SizeBytes(), name);
ok &= 1 == fread(tensors[0]->Ptr(), tensors[0]->SizeBytes(), 1, fptr);
total_size += tensors[0]->SizeBytes();
});
const bool scale_for_compression = UCConfig::kNumTensorScales > 0;
std::vector<float> scales;
if (scale_for_compression) {
uc_weights->GetOrApplyScales(scales);
}
Compressor compressor(pool);
CompressedWeights<CConfig>::ForEachTensor(
{reinterpret_cast<CompressedWeights<CConfig>*>(uc_weights), c_weights},
ForEachType::kLoadNoToc,
[&compressor](const char* name, hwy::Span<MatPtr*> tensors) {
tensors[1]->CallUpcasted(
compressor, name,
reinterpret_cast<const float*>(tensors[0]->Ptr()));
});
compressor.AddScales(scales.data(), scales.size() * sizeof(scales[0]));
compressor.WriteAll(pool, compressed_weights_path);
}
} // namespace HWY_NAMESPACE
} // namespace gcpp
HWY_AFTER_NAMESPACE();
#if HWY_ONCE
namespace gcpp {
void Run(Args& args) {
hwy::ThreadPool pool(args.num_threads);
const Model model_type = args.ModelType();
if (model_type == Model::PALIGEMMA_224) {
HWY_ABORT("PaliGemma is not supported in compress_weights.");
}
const Type weight_type = args.WeightType();
GEMMA_EXPORT_AND_DISPATCH(
model_type, weight_type, CompressWeights,
(args.weights, args.compressed_weights, model_type, weight_type, pool));
}
} // namespace gcpp
int main(int argc, char** argv) {
gcpp::Args args(argc, argv);
if (gcpp::HasHelp(argc, argv)) {
gcpp::ShowHelp(args);
return 0;
}
if (const char* error = args.Validate()) {
gcpp::ShowHelp(args);
HWY_ABORT("\nInvalid args: %s", error);
}
gcpp::Run(args);
return 0;
}
#endif // HWY_ONCE
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