Library for utilization of compressed safetensors of neural network models
Project description
compressed_tensors
This repository extends a safetensors format to efficiently store sparse and/or quantized tensors on disk. compressed-tensors
format supports multiple compression types to minimize the disk space and facilitate the tensor manipulation.
Motivation
Reduce disk space by saving sparse tensors in a compressed format
The compressed format stores the data much more efficiently by taking advantage of two properties of tensors:
- Sparse tensors -> due to a large number of entries that are equal to zero.
- Quantized -> due to their low precision representation.
Introduce an elegant interface to save/load compressed tensors
The library provides the user with the ability to compress/decompress tensors. The properties of tensors are defined by human-readable configs, allowing the users to understand the compression format at a quick glance.
Installation
Pip
pip install compressed-tensors
From source
git clone https://github.com/neuralmagic/compressed-tensors
cd compressed-tensors
pip install -e .
Getting started
Saving/Loading Compressed Tensors (Bitmask Compression)
The function save_compressed
uses the compression_format
argument to apply compression to tensors.
The function load_compressed
reverses the process: converts the compressed weights on disk to decompressed weights in device memory.
from compressed_tensors import save_compressed, load_compressed, BitmaskConfig
from torch import Tensor
from typing import Dict
# the example BitmaskConfig method efficiently compresses
# tensors with large number of zero entries
compression_config = BitmaskConfig()
tensors: Dict[str, Tensor] = {"tensor_1": Tensor(
[[0.0, 0.0, 0.0],
[1.0, 1.0, 1.0]]
)}
# compress tensors using BitmaskConfig compression format (save them efficiently on disk)
save_compressed(tensors, "model.safetensors", compression_format=compression_config.format)
# decompress tensors (load_compressed returns a generator for memory efficiency)
decompressed_tensors = {}
for tensor_name, tensor in load_compressed("model.safetensors", compression_config = compression_config):
decompressed_tensors[tensor_name] = tensor
Saving/Loading Compressed Models (Bitmask Compression)
We can apply bitmask compression to a whole model. For more detailed example see example
directory.
from compressed_tensors import save_compressed_model, load_compressed, BitmaskConfig
from transformers import AutoModelForCausalLM
model_name = "neuralmagic/llama2.c-stories110M-pruned50"
model = AutoModelForCausalLM.from_pretrained(model_name, torch_dtype="auto")
original_state_dict = model.state_dict()
compression_config = BitmaskConfig()
# save compressed model weights
save_compressed_model(model, "compressed_model.safetensors", compression_format=compression_config.format)
# load compressed model weights (`dict` turns generator into a dictionary)
state_dict = dict(load_compressed("compressed_model.safetensors", compression_config))
For more in-depth tutorial on bitmask compression, refer to the notebook.
Saving a Compressed Model with PTQ
We can use compressed-tensors to run basic post training quantization (PTQ) and save the quantized model compressed on disk
model_name = "TinyLlama/TinyLlama-1.1B-intermediate-step-1431k-3T"
model = AutoModelForCausalLM.from_pretrained(model_name, device_map="cuda:0", torch_dtype="auto")
config = QuantizationConfig.parse_file("./examples/bit_packing/int4_config.json")
config.quantization_status = QuantizationStatus.CALIBRATION
apply_quantization_config(model, config)
dataset = load_dataset("ptb_text_only")["train"]
tokenizer = AutoTokenizer.from_pretrained(model_name)
def tokenize_function(examples):
return tokenizer(examples["sentence"], padding=False, truncation=True, max_length=1024)
tokenized_dataset = dataset.map(tokenize_function, batched=True)
data_loader = DataLoader(tokenized_dataset, batch_size=1, collate_fn=DefaultDataCollator())
with torch.no_grad():
for idx, sample in tqdm(enumerate(data_loader), desc="Running calibration"):
sample = {key: value.to(device) for key,value in sample.items()}
_ = model(**sample)
if idx >= 512:
break
model.apply(freeze_module_quantization)
model.apply(compress_quantized_weights)
output_dir = "./ex_llama1.1b_w4a16_packed_quantize"
compressor = ModelCompressor(quantization_config=config)
compressed_state_dict = compressor.compress(model)
model.save_pretrained(output_dir, state_dict=compressed_state_dict)
For more in-depth tutorial on quantization compression, refer to the notebook.
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