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* ggml : update mul_mat_id to use the same tensor for all the experts * update cuda * minor * update metal * update test-backend-ops * fix cuda * Update ggml-metal.m Co-authored-by: Georgi Gerganov <ggerganov@gmail.com> * update convert.py * update convert-hf-to-gguf.py * update convert.py for mixtral hf models * Update convert-hf-to-gguf.py Co-authored-by: Georgi Gerganov <ggerganov@gmail.com> * cuda : support non-pow-2 number of experts * allow quantize to work for split and merged experts models in the same way * cleanup + disable mmap automatically with split tensors models * update imatrix * test-backend-ops : test qwen argsort * update grok model loading * llama : add merged experts tensors to the grok tensor map * minor * gguf : bump version * fix quantizing of merged experts * convert-hf-to-gguf.py : update grok (untested) * make linter happy * cuda/argsort : use shared memory instead of pool memory * convert : fix grok tensor names * metal : add support for non-pow-2 argsort * llama : more loader cleanup, better error checking * cuda : fix warning * llama : still use mmap for loading old models, but copy the data to a host buffer * add review note * llama : remove ffn tensor counting + add sanity check ggml-ci * convert : fix handling of n_experts == None ggml-ci * imatrix : fix ncall counters * llama : produce error if imatrix size does not match * quantize : terminate on errors + trace logs ggml-ci * metal : pad shared memory to 16 bytes --------- Co-authored-by: Georgi Gerganov <ggerganov@gmail.com> |
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.. | ||
CMakeLists.txt | ||
imatrix.cpp | ||
README.md |
llama.cpp/examples/imatrix
Compute an importance matrix for a model and given text dataset. Can be used during quantization to enchance the quality of the quantum models. More information is available here: https://github.com/ggerganov/llama.cpp/pull/4861
Usage
./imatrix -m <some_fp_model> -f <some_training_data> [-o <output_file>] [--verbosity <verbosity_level>]
[-ofreq num_chunks] [-ow <0 or 1>] [other common params]
Here -m
with a model name and -f
with a file containing training data (such as e.g. wiki.train.raw
) are mandatory.
The parameters in square brackets are optional and have the following meaning:
-o
(or--output-file
) specifies the name of the file where the computed data will be stored. If missingimatrix.dat
is used.--verbosity
specifies the verbosity level. If set to0
, no output other than the perplexity of the processed chunks will be generated. If set to1
, each time the results are saved a message is written tostderr
. If>=2
, a message is output each time data is collected for any tensor. Default verbosity level is1
.-ofreq
(or--output-frequency
) specifies how often the so far computed result is saved to disk. Default is 10 (i.e., every 10 chunks)-ow
(or--output-weight
) specifies if data will be collected for theoutput.weight
tensor. My experience is that it is better to not utilize the importance matrix when quantizingoutput.weight
, so this is set tofalse
by default.
For faster computation, make sure to use GPU offloading via the -ngl
argument
Example
LLAMA_CUDA=1 make -j
# generate importance matrix (imatrix.dat)
./imatrix -m ggml-model-f16.gguf -f train-data.txt -ngl 99
# use the imatrix to perform a Q4_K_M quantization
./quantize --imatrix imatrix.dat ggml-model-f16.gguf ./ggml-model-q4_k_m.gguf q4_k_m