mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-10-30 22:50:15 +01:00
bd2d4e393b
* iq1_s: WIP basics * iq1_s: CUDA is working * iq1_s: scalar CPU dot product * iq1_s: WIP AVX2 dot product - something is not right * Fix tests * Fix shadow warnings * Fix after merge with latest master * iq1_s: AVX2 finally works * iq1_s: ARM_NEON dot product. Works, but not very fast * iq1_s: better grid * iq1_s: use IQ2_XXS for attn_output At a cost of 0.04 extra bpw this gives a big improvement in PPL. * iq1_s: Metal basics Dequantize works, but not dot product * iq1_s: Metal works, but quite slow As usual, Apple Silicon does not like the code I write. * iq1_s: Tests * iq1_s: slightly faster dot product --------- Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
336 lines
13 KiB
C++
336 lines
13 KiB
C++
#include "common.h"
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#include "llama.h"
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#include <cstdio>
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#include <cstring>
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#include <vector>
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#include <string>
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#include <unordered_map>
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#include <fstream>
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#include <cmath>
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#include <algorithm>
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struct quant_option {
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std::string name;
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llama_ftype ftype;
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std::string desc;
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};
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static const std::vector<struct quant_option> QUANT_OPTIONS = {
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{ "Q4_0", LLAMA_FTYPE_MOSTLY_Q4_0, " 3.56G, +0.2166 ppl @ LLaMA-v1-7B", },
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{ "Q4_1", LLAMA_FTYPE_MOSTLY_Q4_1, " 3.90G, +0.1585 ppl @ LLaMA-v1-7B", },
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{ "Q5_0", LLAMA_FTYPE_MOSTLY_Q5_0, " 4.33G, +0.0683 ppl @ LLaMA-v1-7B", },
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{ "Q5_1", LLAMA_FTYPE_MOSTLY_Q5_1, " 4.70G, +0.0349 ppl @ LLaMA-v1-7B", },
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{ "IQ2_XXS",LLAMA_FTYPE_MOSTLY_IQ2_XXS," 2.06 bpw quantization", },
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{ "IQ2_XS", LLAMA_FTYPE_MOSTLY_IQ2_XS, " 2.31 bpw quantization", },
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{ "IQ1_S", LLAMA_FTYPE_MOSTLY_IQ1_S, " 1.56 bpw quantization", },
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{ "Q2_K", LLAMA_FTYPE_MOSTLY_Q2_K, " 2.63G, +0.6717 ppl @ LLaMA-v1-7B", },
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{ "Q2_K_S", LLAMA_FTYPE_MOSTLY_Q2_K_S, " 2.16G, +9.0634 ppl @ LLaMA-v1-7B", },
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{ "IQ3_XXS",LLAMA_FTYPE_MOSTLY_IQ3_XXS," 3.06 bpw quantization", },
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{ "Q3_K", LLAMA_FTYPE_MOSTLY_Q3_K_M, "alias for Q3_K_M" },
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{ "Q3_K_XS",LLAMA_FTYPE_MOSTLY_Q3_K_XS,"3-bit extra small quantization" , },
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{ "Q3_K_S", LLAMA_FTYPE_MOSTLY_Q3_K_S, " 2.75G, +0.5551 ppl @ LLaMA-v1-7B", },
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{ "Q3_K_M", LLAMA_FTYPE_MOSTLY_Q3_K_M, " 3.07G, +0.2496 ppl @ LLaMA-v1-7B", },
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{ "Q3_K_L", LLAMA_FTYPE_MOSTLY_Q3_K_L, " 3.35G, +0.1764 ppl @ LLaMA-v1-7B", },
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{ "Q4_K", LLAMA_FTYPE_MOSTLY_Q4_K_M, "alias for Q4_K_M", },
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{ "Q4_K_S", LLAMA_FTYPE_MOSTLY_Q4_K_S, " 3.59G, +0.0992 ppl @ LLaMA-v1-7B", },
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{ "Q4_K_M", LLAMA_FTYPE_MOSTLY_Q4_K_M, " 3.80G, +0.0532 ppl @ LLaMA-v1-7B", },
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{ "Q5_K", LLAMA_FTYPE_MOSTLY_Q5_K_M, "alias for Q5_K_M", },
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{ "Q5_K_S", LLAMA_FTYPE_MOSTLY_Q5_K_S, " 4.33G, +0.0400 ppl @ LLaMA-v1-7B", },
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{ "Q5_K_M", LLAMA_FTYPE_MOSTLY_Q5_K_M, " 4.45G, +0.0122 ppl @ LLaMA-v1-7B", },
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{ "Q6_K", LLAMA_FTYPE_MOSTLY_Q6_K, " 5.15G, +0.0008 ppl @ LLaMA-v1-7B", },
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{ "Q8_0", LLAMA_FTYPE_MOSTLY_Q8_0, " 6.70G, +0.0004 ppl @ LLaMA-v1-7B", },
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{ "F16", LLAMA_FTYPE_MOSTLY_F16, "13.00G @ 7B", },
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{ "F32", LLAMA_FTYPE_ALL_F32, "26.00G @ 7B", },
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// Note: Ensure COPY comes after F32 to avoid ftype 0 from matching.
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{ "COPY", LLAMA_FTYPE_ALL_F32, "only copy tensors, no quantizing", },
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};
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static bool try_parse_ftype(const std::string & ftype_str_in, llama_ftype & ftype, std::string & ftype_str_out) {
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std::string ftype_str;
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for (auto ch : ftype_str_in) {
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ftype_str.push_back(std::toupper(ch));
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}
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for (auto & it : QUANT_OPTIONS) {
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if (it.name == ftype_str) {
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ftype = it.ftype;
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ftype_str_out = it.name;
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return true;
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}
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}
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try {
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int ftype_int = std::stoi(ftype_str);
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for (auto & it : QUANT_OPTIONS) {
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if (it.ftype == ftype_int) {
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ftype = it.ftype;
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ftype_str_out = it.name;
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return true;
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}
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}
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}
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catch (...) {
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// stoi failed
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}
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return false;
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}
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// usage:
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// ./quantize [--allow-requantize] [--leave-output-tensor] [--pure] models/llama/ggml-model.gguf [models/llama/ggml-model-quant.gguf] type [nthreads]
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//
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[[noreturn]]
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static void usage(const char * executable) {
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printf("usage: %s [--help] [--allow-requantize] [--leave-output-tensor] [--pure] [--imatrix] [--include-weights] [--exclude-weights] model-f32.gguf [model-quant.gguf] type [nthreads]\n\n", executable);
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printf(" --allow-requantize: Allows requantizing tensors that have already been quantized. Warning: This can severely reduce quality compared to quantizing from 16bit or 32bit\n");
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printf(" --leave-output-tensor: Will leave output.weight un(re)quantized. Increases model size but may also increase quality, especially when requantizing\n");
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printf(" --pure: Disable k-quant mixtures and quantize all tensors to the same type\n");
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printf(" --imatrix file_name: use data in file_name as importance matrix for quant optimizations\n");
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printf(" --include-weights tensor_name: use importance matrix for this/these tensor(s)\n");
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printf(" --exclude-weights tensor_name: use importance matrix for this/these tensor(s)\n");
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printf("Note: --include-weights and --exclude-weights cannot be used together\n");
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printf("\nAllowed quantization types:\n");
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for (auto & it : QUANT_OPTIONS) {
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if (it.name != "COPY") {
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printf(" %2d or ", it.ftype);
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} else {
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printf(" ");
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}
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printf("%-7s : %s\n", it.name.c_str(), it.desc.c_str());
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}
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exit(1);
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}
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static void load_imatrix(const std::string& imatrix_file, std::unordered_map<std::string, std::vector<float>>& imatrix_data) {
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std::ifstream in(imatrix_file.c_str(), std::ios::binary);
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if (!in) {
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printf("%s: failed to open %s\n",__func__,imatrix_file.c_str());
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return;
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}
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int n_entries;
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in.read((char*)&n_entries, sizeof(n_entries));
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if (in.fail() || n_entries < 1) {
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printf("%s: no data in file %s\n", __func__, imatrix_file.c_str());
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return;
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}
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for (int i = 0; i < n_entries; ++i) {
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int len; in.read((char *)&len, sizeof(len));
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std::vector<char> name_as_vec(len+1);
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in.read((char *)name_as_vec.data(), len);
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if (in.fail()) {
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printf("%s: failed reading name for entry %d from %s\n",__func__,i+1,imatrix_file.c_str());
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return;
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}
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name_as_vec[len] = 0;
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std::string name{name_as_vec.data()};
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auto& e = imatrix_data[std::move(name)];
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int ncall;
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in.read((char*)&ncall, sizeof(ncall));
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int nval;
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in.read((char *)&nval, sizeof(nval));
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if (in.fail() || nval < 1) {
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printf("%s: failed reading number of values for entry %d\n",__func__,i);
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imatrix_data = {};
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return;
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}
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e.resize(nval);
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in.read((char*)e.data(), nval*sizeof(float));
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if (in.fail()) {
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printf("%s: failed reading data for entry %d\n",__func__,i);
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imatrix_data = {};
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return;
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}
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if (ncall > 0) {
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for (auto& v : e) v /= ncall;
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}
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}
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printf("%s: loaded %d importance matrix entries from %s\n",__func__,int(imatrix_data.size()),imatrix_file.c_str());
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}
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static void prepare_imatrix(const std::string& imatrix_file,
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const std::vector<std::string>& included_weights,
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const std::vector<std::string>& excluded_weights,
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std::unordered_map<std::string, std::vector<float>>& imatrix_data) {
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if (!imatrix_file.empty()) {
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load_imatrix(imatrix_file, imatrix_data);
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}
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if (imatrix_data.empty()) {
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return;
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}
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if (!excluded_weights.empty()) {
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for (auto& name : excluded_weights) {
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for (auto it = imatrix_data.begin(); it != imatrix_data.end(); ) {
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auto pos = it->first.find(name);
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if (pos != std::string::npos) it = imatrix_data.erase(it);
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else ++it;
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}
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}
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}
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if (!included_weights.empty()) {
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std::unordered_map<std::string, std::vector<float>> tmp;
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for (auto& name : included_weights) {
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for (auto& e : imatrix_data) {
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auto pos = e.first.find(name);
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if (pos != std::string::npos) {
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tmp.emplace(std::move(e));
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}
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}
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}
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imatrix_data = std::move(tmp);
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}
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if (!imatrix_data.empty()) {
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printf("%s: have %d importance matrix entries\n", __func__, int(imatrix_data.size()));
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}
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}
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int main(int argc, char ** argv) {
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if (argc < 3) {
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usage(argv[0]);
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}
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llama_model_quantize_params params = llama_model_quantize_default_params();
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int arg_idx = 1;
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std::string imatrix_file;
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std::vector<std::string> included_weights, excluded_weights;
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for (; arg_idx < argc && strncmp(argv[arg_idx], "--", 2) == 0; arg_idx++) {
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if (strcmp(argv[arg_idx], "--leave-output-tensor") == 0) {
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params.quantize_output_tensor = false;
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} else if (strcmp(argv[arg_idx], "--allow-requantize") == 0) {
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params.allow_requantize = true;
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} else if (strcmp(argv[arg_idx], "--pure") == 0) {
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params.pure = true;
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} else if (strcmp(argv[arg_idx], "--imatrix") == 0) {
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if (arg_idx < argc-1) {
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imatrix_file = argv[++arg_idx];
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} else {
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usage(argv[0]);
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}
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} else if (strcmp(argv[arg_idx], "--include-weights") == 0) {
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if (arg_idx < argc-1) {
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included_weights.emplace_back(argv[++arg_idx]);
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} else {
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usage(argv[0]);
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}
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} else if (strcmp(argv[arg_idx], "--exclude-weights") == 0) {
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if (arg_idx < argc-1) {
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excluded_weights.emplace_back(argv[++arg_idx]);
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} else {
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usage(argv[0]);
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}
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} else {
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usage(argv[0]);
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}
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}
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if (argc - arg_idx < 2) {
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printf("%s: bad arguments\n", argv[0]);
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usage(argv[0]);
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}
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if (!included_weights.empty() && !excluded_weights.empty()) {
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usage(argv[0]);
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}
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std::unordered_map<std::string, std::vector<float>> imatrix_data;
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prepare_imatrix(imatrix_file, included_weights, excluded_weights, imatrix_data);
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if (!imatrix_data.empty()) {
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params.imatrix = &imatrix_data;
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}
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llama_backend_init();
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// parse command line arguments
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const std::string fname_inp = argv[arg_idx];
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arg_idx++;
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std::string fname_out;
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std::string ftype_str;
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if (try_parse_ftype(argv[arg_idx], params.ftype, ftype_str)) {
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std::string fpath;
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const size_t pos = fname_inp.find_last_of("/\\");
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if (pos != std::string::npos) {
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fpath = fname_inp.substr(0, pos + 1);
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}
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// export as [inp path]/ggml-model-[ftype].gguf
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fname_out = fpath + "ggml-model-" + ftype_str + ".gguf";
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arg_idx++;
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if (ftype_str == "COPY") {
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params.only_copy = true;
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}
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}
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else {
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fname_out = argv[arg_idx];
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arg_idx++;
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if (argc <= arg_idx) {
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fprintf(stderr, "%s: missing ftype\n", __func__);
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return 1;
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}
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if (!try_parse_ftype(argv[arg_idx], params.ftype, ftype_str)) {
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fprintf(stderr, "%s: invalid ftype '%s'\n", __func__, argv[3]);
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return 1;
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}
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if (ftype_str == "COPY") {
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params.only_copy = true;
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}
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arg_idx++;
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}
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// parse nthreads
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if (argc > arg_idx) {
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try {
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params.nthread = std::stoi(argv[arg_idx]);
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}
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catch (const std::exception & e) {
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fprintf(stderr, "%s: invalid nthread '%s' (%s)\n", __func__, argv[arg_idx], e.what());
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return 1;
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}
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}
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if ((params.ftype == LLAMA_FTYPE_MOSTLY_IQ2_XS || params.ftype == LLAMA_FTYPE_MOSTLY_IQ2_XXS ||
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params.ftype == LLAMA_FTYPE_MOSTLY_Q2_K_S || params.ftype == LLAMA_FTYPE_MOSTLY_IQ1_S) && imatrix_data.empty()) {
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fprintf(stderr, "\n===============================================================================================\n");
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fprintf(stderr, "Please do not use IQ1_S, IQ2_XXS, IQ2_XS or Q2_K_S quantization without an importance matrix\n");
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fprintf(stderr, "===============================================================================================\n\n\n");
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return 1;
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}
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print_build_info();
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fprintf(stderr, "%s: quantizing '%s' to '%s' as %s", __func__, fname_inp.c_str(), fname_out.c_str(), ftype_str.c_str());
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if (params.nthread > 0) {
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fprintf(stderr, " using %d threads", params.nthread);
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}
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fprintf(stderr, "\n");
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const int64_t t_main_start_us = llama_time_us();
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int64_t t_quantize_us = 0;
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// load the model
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{
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const int64_t t_start_us = llama_time_us();
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if (llama_model_quantize(fname_inp.c_str(), fname_out.c_str(), ¶ms)) {
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fprintf(stderr, "%s: failed to quantize model from '%s'\n", __func__, fname_inp.c_str());
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return 1;
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}
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t_quantize_us = llama_time_us() - t_start_us;
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}
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// report timing
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{
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const int64_t t_main_end_us = llama_time_us();
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printf("\n");
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printf("%s: quantize time = %8.2f ms\n", __func__, t_quantize_us/1000.0);
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printf("%s: total time = %8.2f ms\n", __func__, (t_main_end_us - t_main_start_us)/1000.0);
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}
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llama_backend_free();
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return 0;
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}
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