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Introduce GGML migration tool for new file format
If you deleted your old Meta LLaMA .pth files, then the migrate-ggml-2023-03-30-pr613.py script will allow you to convert your old ggml files into the new mmap()'able format. See #613
This commit is contained in:
parent
6f23ba5ee2
commit
ee0c40dd6d
3 changed files with 326 additions and 14 deletions
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@ -1,4 +1,4 @@
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# Convert a LLaMA model checkpoint to a ggml compatible file
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# Convert a LLaMA model checkpoint to a ggjt compatible file
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#
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#
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# Load the model using Torch
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# Load the model using Torch
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# Iterate over all variables and write them to a binary file.
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# Iterate over all variables and write them to a binary file.
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@ -52,8 +52,8 @@ GGML_BLCK_SIZE = {
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}
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}
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GGML_TYPE_SIZE = {
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GGML_TYPE_SIZE = {
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GGML_TYPE_Q4_0: 4 + QK/2,
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GGML_TYPE_Q4_0: 4 + QK//2,
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GGML_TYPE_Q4_1: 4*2 + QK/2,
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GGML_TYPE_Q4_1: 4*2 + QK//2,
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GGML_TYPE_I8: 1,
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GGML_TYPE_I8: 1,
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GGML_TYPE_I16: 2,
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GGML_TYPE_I16: 2,
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GGML_TYPE_I32: 4,
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GGML_TYPE_I32: 4,
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@ -245,11 +245,9 @@ def main():
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fname_model = f"{dir_model}/consolidated.00.pth"
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fname_model = f"{dir_model}/consolidated.00.pth"
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fname_out = f"{dir_model}/ggml-vocab.bin"
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fname_out = f"{dir_model}/ggml-vocab.bin"
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print(f"Extracting only the vocab from '{fname_model}'\n")
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print(f"Extracting only the vocab from '{fname_model}'\n")
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model = torch.load(fname_model, map_location="cpu")
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with open(fname_out, "wb") as fout:
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with open(fname_out, "wb") as fout:
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write_header(fout, hparams, ftype)
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write_header(fout, hparams, ftype)
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write_tokens(fout, tokenizer)
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write_tokens(fout, tokenizer)
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del model
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print(f"Done. Output file: {fname_out}\n")
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print(f"Done. Output file: {fname_out}\n")
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return
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return
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19
llama.cpp
19
llama.cpp
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@ -347,14 +347,15 @@ static void munmap_file(void * addr, size_t length) {
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#endif
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#endif
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}
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}
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static bool report_bad_magic(const char *path) {
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static bool report_bad_magic(const char *path, uint32_t got, uint32_t want) {
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fprintf(stderr,
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fprintf(stderr,
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"%s: invalid model file (bad magic)\n"
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"%s: invalid model file (bad magic [got %#x want %#x])\n"
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"you most likely need to regenerate your ggml files\n"
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"\tyou most likely need to regenerate your ggml files\n"
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"the benefit is you'll get 10-100x faster load times\n"
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"\tthe benefit is you'll get 10-100x faster load times\n"
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"see https://github.com/ggerganov/llama.cpp/issues/91\n"
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"\tsee https://github.com/ggerganov/llama.cpp/issues/91\n"
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"use convert-pth-to-ggml.py on your llama model files\n",
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"\tuse convert-pth-to-ggml.py to regenerate from original pth\n"
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path);
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"\tuse migrate-ggml-2023-03-30-pr613.py if you deleted originals\n",
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path, got, want);
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return false;
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return false;
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}
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}
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@ -397,7 +398,7 @@ static bool llama_model_load(
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return false;
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return false;
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}
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}
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if (magic != LLAMA_FILE_MAGIC) {
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if (magic != LLAMA_FILE_MAGIC) {
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return report_bad_magic(fname.c_str());
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return report_bad_magic(fname.c_str(), magic, LLAMA_FILE_MAGIC);
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}
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}
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uint32_t format_version;
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uint32_t format_version;
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@ -1312,7 +1313,7 @@ static bool llama_model_quantize_internal(const std::string & fname_inp, const s
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return false;
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return false;
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}
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}
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if (magic != LLAMA_FILE_MAGIC) {
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if (magic != LLAMA_FILE_MAGIC) {
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return report_bad_magic(fname_inp.c_str());
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return report_bad_magic(fname_inp.c_str(), magic, LLAMA_FILE_MAGIC);
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}
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}
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fout.write((char *) &magic, sizeof(magic));
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fout.write((char *) &magic, sizeof(magic));
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313
migrate-ggml-2023-03-30-pr613.py
Normal file
313
migrate-ggml-2023-03-30-pr613.py
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@ -0,0 +1,313 @@
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# Migrate ggml file(s) with ggmf magic to ggml file with ggjt magic
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#
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# We caused a breaking change to the file format on 2023-03-30 in:
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# https://github.com/ggerganov/llama.cpp/pull/613
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#
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# (1) If you still have the Meta LLaMA .pth files, then close this
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# file now; you can just run `convert-pth-to-ggml.py` again to
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# migrate to the new format. The tool is easier to use too. It
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# isn't necessary anymore to manage split output files because
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# the new format always combines things into a single file.
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#
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# (2) If you deleted the Meta LLaMA .pth files due to save on disk
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# space, then this tool is intended to help you. Please check
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# out the instructions below.
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#
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# USAGE
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#
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# python migrate-ggml-2023-03-30-pr613.py INPUT OUTPUT
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#
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# PREREQUISITES
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#
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# pip install numpy
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# cd llama.cpp
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# make -j4
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#
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# EXAMPLE (7B MODEL)
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#
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# # you can replace all the 'f16' with 'q4_0' if you're using quantized weights
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# python migrate-ggml-2023-03-30-pr613.py models/7B/ggml-model-f16.bin models/7B/ggml-model-f16-ggjt.bin
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#
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# # check that it works
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# ./main -m models/7B/ggml-model-f16-ggjt.bin -p 'Question: Do you love me?'
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#
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# # you can delete the old files
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# rm -f models/7B/ggml-model-f16.bin
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# mv models/7B/ggml-model-f16-ggjt.bin models/7B/ggml-model-f16.bin
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#
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# EXAMPLE (13B MODEL)
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#
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# # you can replace all the 'f16' with 'q4_0' if you're using quantized weights
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# python migrate-ggml-2023-03-30-pr613.py models/13B/ggml-model-f16.bin models/13B/ggml-model-f16-ggjt.bin
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#
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# # check that it works
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# ./main -m models/13B/ggml-model-f16-ggjt.bin -p 'Question: Do you love me?'
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#
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# # you can delete the old files
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# rm -f models/13B/ggml-model-f16.bin*
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# mv models/13B/ggml-model-f16-ggjt.bin models/13B/ggml-model-f16.bin
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#
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import argparse
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import os
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import sys
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import json
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import struct
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import numpy as np
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QK = 32
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GGML_TYPE_Q4_0 = 0
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GGML_TYPE_Q4_1 = 1
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GGML_TYPE_I8 = 2
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GGML_TYPE_I16 = 3
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GGML_TYPE_I32 = 4
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GGML_TYPE_F16 = 5
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GGML_TYPE_F32 = 6
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WTYPE_NAMES = {
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0: "F32",
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1: "F16",
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2: "Q4_0",
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3: "Q4_1",
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}
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WTYPES = {
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0: GGML_TYPE_F32,
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1: GGML_TYPE_F16,
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2: GGML_TYPE_Q4_0,
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3: GGML_TYPE_Q4_1,
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}
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GGML_BLCK_SIZE = {
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GGML_TYPE_Q4_0: QK,
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GGML_TYPE_Q4_1: QK,
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GGML_TYPE_I8: 1,
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GGML_TYPE_I16: 1,
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GGML_TYPE_I32: 1,
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GGML_TYPE_F16: 1,
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GGML_TYPE_F32: 1,
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}
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GGML_TYPE_SIZE = {
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GGML_TYPE_Q4_0: 4 + QK//2,
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GGML_TYPE_Q4_1: 4*2 + QK//2,
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GGML_TYPE_I8: 1,
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GGML_TYPE_I16: 2,
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GGML_TYPE_I32: 4,
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GGML_TYPE_F16: 2,
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GGML_TYPE_F32: 4,
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}
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HPARAMS = [
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'magic', # int32
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'version', # int32
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'n_vocab', # int32
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'n_embd', # int32
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'n_mult', # int32
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'n_head', # int32
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'n_layer', # int32
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'n_rot', # int32
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'f16', # int32
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]
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def read_hparams(fin):
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struct_fmt = "i" * len(HPARAMS)
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struct_size = struct.calcsize(struct_fmt)
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buf = fin.read(struct_size)
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ints = struct.unpack(struct_fmt, buf)
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hparams = dict(zip(HPARAMS, ints))
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return hparams
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def write_hparams(fout, hparams):
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struct_fmt = "i" * len(HPARAMS)
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struct_size = struct.calcsize(struct_fmt)
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ints = [hparams[h] for h in HPARAMS]
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fout.write(struct.pack(struct_fmt, *ints))
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def read_tokens(fin, hparams):
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tokens = []
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for i in range(hparams['n_vocab']):
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len_b = fin.read(4)
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(length,) = struct.unpack("i", len_b)
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word = fin.read(length)
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score_b = fin.read(4)
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(score,) = struct.unpack("f", score_b)
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tokens.append((word, score))
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return tokens
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def write_tokens(fout, tokens):
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for word, score in tokens:
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fout.write(struct.pack("i", len(word)))
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fout.write(word)
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fout.write(struct.pack("f", score))
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def ggml_nelements(shape):
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r = 1
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for i in shape:
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r *= i
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return r
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def ggml_nbytes(shape, ftype):
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x = ggml_nelements(shape)
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t = WTYPES[ftype]
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x *= GGML_TYPE_SIZE[t]
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x //= GGML_BLCK_SIZE[t]
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return x
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def copy_tensors(fin, fout, part_id, n_parts):
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while True:
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b = fin.read(4)
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if not b: break
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(n_dims,) = struct.unpack("i", b)
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b = fin.read(4)
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(length,) = struct.unpack("i", b)
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b = fin.read(4)
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(ftype,) = struct.unpack("i", b)
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assert n_dims in (1, 2)
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partshape = list(range(n_dims))
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for i in range(n_dims):
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b = fin.read(4)
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partshape[i] = struct.unpack("i", b)[0]
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partshape = list(reversed(partshape))
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name = fin.read(length)
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data = fin.read(ggml_nbytes(partshape, ftype))
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blck_size = GGML_BLCK_SIZE[WTYPES[ftype]]
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type_size = GGML_TYPE_SIZE[WTYPES[ftype]]
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print(f"Processing tensor {name} with shape: {partshape} and type: {WTYPE_NAMES[ftype]}")
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# determine dimension along which multipart tensor is sharded
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#
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# split_dim 0 regex:
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# - output.*
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# - layers.*.attention.wq.weight
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# - layers.*.attention.wk.weight
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# - layers.*.attention.wv.weight
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# - layers.*.feed_forward.w1.weight
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# - layers.*.feed_forward.w3.weight
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#
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# split_dim 1 regex:
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# - tok_embeddings.*
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# - layers.*.attention.wo.weight
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# - layers.*.feed_forward.w2.weight
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#
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if n_dims > 1:
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split_dim = 1
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if b"tok_embeddings" in name:
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split_dim = 1
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elif b"layers" in name:
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if b"attention.wo.weight" in name:
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split_dim = 1
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elif b"feed_forward.w2.weight" in name:
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split_dim = 1
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else:
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split_dim = 0
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elif b"output" in name:
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split_dim = 0
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# output tensor header
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fullshape = list(partshape)
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if n_dims > 1:
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fullshape[split_dim] *= n_parts
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fout.write(struct.pack("iii", n_dims, len(name), ftype))
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for dim in reversed(fullshape):
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fout.write(struct.pack("i", dim))
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fout.write(name)
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# ensure tensor data is aligned
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tensor_data_offset = fout.tell()
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while tensor_data_offset % QK != 0:
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fout.write(struct.pack("B", 0))
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tensor_data_offset += 1
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# output unified mappable tensor data
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if n_dims == 1 or n_parts == 1:
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# copy tensor which we thankfully received in one piece
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if part_id == 0:
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fout.write(data)
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elif split_dim == 0:
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# reassemble multifile tensor containing some of the rows
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rows_per_chunk = partshape[0]
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current_row = part_id * rows_per_chunk
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bytes_per_row = fullshape[1] // blck_size * type_size
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offset = current_row * bytes_per_row
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fout.seek(tensor_data_offset + offset)
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fout.write(data)
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elif split_dim == 1:
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# reassemble multifile tensor containing some of the cols
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cols_per_chunk = partshape[1]
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current_col = part_id * cols_per_chunk
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bpr = partshape[1] // blck_size * type_size
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bytes_per_row = fullshape[1] // blck_size * type_size
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offset_current_col = current_col // blck_size * type_size
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for row in range(partshape[0]):
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offset_row = row * bytes_per_row
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offset = offset_row + offset_current_col
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fout.seek(tensor_data_offset + offset)
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fout.write(data[row * bpr:row * bpr + bpr])
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# advance file position to next tensor
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fout.seek(tensor_data_offset + ggml_nbytes(fullshape, ftype))
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def parse_args():
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parser = argparse.ArgumentParser(description='Migrate from GGML to new GGJT file format')
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parser.add_argument('fin_path', help='your old ggml file (leave out the .1 .2 etc.)')
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parser.add_argument('fout_path', help='your new ggjt file name')
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return parser.parse_args()
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def main():
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args = parse_args()
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assert args.fin_path
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assert args.fout_path
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assert args.fin_path != args.fout_path
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with open(args.fin_path, "rb") as fin:
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hparams = read_hparams(fin)
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tokens = read_tokens(fin, hparams)
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|
|
||||||
|
if hparams['magic'] == 0x67676a74: # ggjt
|
||||||
|
print("%s: input ggml has already been converted to 'ggjt' magic\n" %
|
||||||
|
(args.fin_path))
|
||||||
|
sys.exit(1)
|
||||||
|
|
||||||
|
if hparams['magic'] != 0x67676d66: # ggmf
|
||||||
|
print("%s: input ggml file doesn't have expected 'ggmf' magic: %#x\n" %
|
||||||
|
(args.fin_path, hparams['magic']))
|
||||||
|
sys.exit(1)
|
||||||
|
|
||||||
|
hparams['magic'] = 0x67676a74 # ggjt
|
||||||
|
|
||||||
|
# count number of multipart files by convention
|
||||||
|
n_parts = 1
|
||||||
|
while True:
|
||||||
|
if os.path.exists("%s.%d" % (args.fin_path, n_parts)):
|
||||||
|
n_parts += 1
|
||||||
|
else:
|
||||||
|
break
|
||||||
|
|
||||||
|
# we output a single file for ggml
|
||||||
|
with open(args.fout_path, "wb") as fout:
|
||||||
|
write_hparams(fout, hparams)
|
||||||
|
write_tokens(fout, tokens)
|
||||||
|
offset_of_tensors = fout.tell()
|
||||||
|
# the tensors we load could be split across multiple files
|
||||||
|
for part_id in range(n_parts):
|
||||||
|
fout.seek(offset_of_tensors)
|
||||||
|
print(f"Processing part {part_id+1} of {n_parts}\n")
|
||||||
|
fin_path = args.fin_path
|
||||||
|
if part_id > 0:
|
||||||
|
fin_path += ".%d" % (part_id)
|
||||||
|
with open(fin_path, "rb") as fin:
|
||||||
|
read_tokens(fin, read_hparams(fin))
|
||||||
|
copy_tensors(fin, fout, part_id, n_parts)
|
||||||
|
|
||||||
|
print(f"Done. Output file: {args.fout_path}\n")
|
||||||
|
|
||||||
|
if __name__ == "__main__":
|
||||||
|
main()
|
Loading…
Reference in a new issue