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A fast inference library for running LLMs locally on modern consumer-class GPUs

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ExLlamaV2

ExLlamaV2 is an inference library for running local LLMs on modern consumer GPUs.

Overview of differences compared to V1

  • Faster, better kernels
  • Cleaner and more versatile codebase
  • Support for a new quant format (see below)

Performance

Some quick tests to compare performance with V1. There may be more performance optimizations in the future, and speeds will vary across GPUs, with slow CPUs still being a potential bottleneck:

Model Mode Size grpsz act V1: 3090Ti V1: 4090 V2: 3090Ti V2: 4090
Llama GPTQ 7B 128 no 143 t/s 173 t/s 175 t/s 195 t/s
Llama GPTQ 13B 128 no 84 t/s 102 t/s 105 t/s 110 t/s
Llama GPTQ 33B 128 yes 37 t/s 45 t/s 45 t/s 48 t/s
OpenLlama GPTQ 3B 128 yes 194 t/s 226 t/s 295 t/s 321 t/s
CodeLlama EXL2 4.0 bpw 34B - - - - 42 t/s 48 t/s
Llama2 EXL2 3.0 bpw 7B - - - - 195 t/s 224 t/s
Llama2 EXL2 4.0 bpw 7B - - - - 164 t/s 197 t/s
Llama2 EXL2 5.0 bpw 7B - - - - 144 t/s 160 t/s
Llama2 EXL2 2.5 bpw 70B - - - - 30 t/s 35 t/s
TinyLlama EXL2 3.0 bpw 1.1B - - - - 536 t/s 635 t/s
TinyLlama EXL2 4.0 bpw 1.1B - - - - 509 t/s 590 t/s

How to

Clone the repository and install dependencies:

git clone https://github.com/turboderp/exllamav2
cd exllamav2
pip install -r requirements.txt

python test_inference.py -m <path_to_model> -p "Once upon a time,"

A simple console chatbot is included. Run it with:

python examples/chat.py -m <path_to_model> -mode llama

The -mode argument chooses the prompt format to use. llama is for the Llama(2)-chat finetunes, while codellama probably works better for CodeLlama-instruct. raw will produce a simple chatlog-style chat that works with base models and various other finetunes. Run with -modes for a list of all available prompt formats. You can also provide a custom system prompt with -sp.

Integration and APIs

  • TabbyAPI is a FastAPI-based server that provides an OpenAI-style web API compatible with SillyTavern and other frontends.

  • ExUI is a simple, standalone single-user web UI that serves an ExLlamaV2 instance directly with chat and notebook modes.

  • text-generation-webui supports ExLlamaV2 through the exllamav2 and exllamav2_HF loaders.

Installation

Method 1: Install from source

To install the current dev version, clone the repo and run the setup script:

git clone https://github.com/turboderp/exllamav2
cd exllamav2
python setup.py install --user

By default this will also compile and install the Torch C++ extension (exllamav2_ext) that the library relies on. You can skip this step by setting the EXLLAMA_NOCOMPILE environment variable:

EXLLAMA_NOCOMPILE= python setup.py install --user

This will install the "JIT version" of the package, i.e. it will install the Python components without building the C++ extension in the process. Instead, the extension will be built the first time the library is used, then cached in ~/.cache/torch_extensions for subsequent use.

Method 2: Install from release (with prebuilt extension)

Releases are available here, with prebuilt wheels that contain the extension binaries. Make sure to grab the right version, matching your platform, Python version (cp) and CUDA version. Download an appropriate wheel, then run:

pip install exllamav2-0.0.4+cu118-cp310-cp310-linux_x86_64.whl

The py3-none-any.whl version is the JIT version which will build the extension on first launch. The .tar.gz file can also be installed this way, and it will build the extension while installing.

Method 3: Install from PyPI

A PyPI package is available as well. It can be installed with:

pip install exllamav2

The version available through PyPI is the JIT version (see above). Still working on a solution for distributing prebuilt wheels via PyPI.

EXL2 quantization

ExLlamaV2 supports the same 4-bit GPTQ models as V1, but also a new "EXL2" format. EXL2 is based on the same optimization method as GPTQ and supports 2, 3, 4, 5, 6 and 8-bit quantization. The format allows for mixing quantization levels within a model to achieve any average bitrate between 2 and 8 bits per weight.

Moreover, it's possible to apply multiple quantization levels to each linear layer, producing something akin to sparse quantization wherein more important weights (columns) are quantized with more bits. The same remapping trick that lets ExLlama work efficiently with act-order models allows this mixing of formats to happen with little to no impact on performance.

Parameter selection is done automatically by quantizing each matrix multiple times, measuring the quantization error (with respect to the chosen calibration data) for each of a number of possible settings, per layer. Finally, a combination is chosen that minimizes the maximum quantization error over the entire model while meeting a target average bitrate.

In my tests, this scheme allows Llama2 70B to run on a single 24 GB GPU with a 2048-token context, producing coherent and mostly stable output with 2.55 bits per weight. 13B models run at 2.65 bits within 8 GB of VRAM, although currently none of them uses GQA which effectively limits the context size to 2048. In either case it's unlikely that the model will fit alongside a desktop environment. For now.

chat_screenshot chat_screenshot

Conversion

A script is provided to quantize models. Converting large models can be somewhat slow, so be warned. The conversion script and its options are explained in detail here

HuggingFace repos

  • I've uploaded a few EXL2-quantized models to Hugging Face to play around with, here.

  • LoneStriker provides a large number of EXL2 models on Hugging Face.

  • bartowski has some more EXL2 models on HF.

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A fast inference library for running LLMs locally on modern consumer-class GPUs

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