/chat-with-mlx

Chat with your data natively on Apple Silicon using MLX Framework.

Primary LanguagePythonMIT LicenseMIT

Native RAG on Apple Sillicon Mac with MLX 🧑‍💻

version downloads license python-version

This repository showcases a Retrieval-augmented Generation (RAG) chat interface with support for multiple open-source models.

chat_with_mlx

Features

  • Chat with your Data: doc(x), pdf, txt and YouTube video via URL.
  • Multilingual: Chinese 🇨🇳, English🏴, French🇫🇷, German🇩🇪, Hindi🇮🇳, Italian🇮🇹, Japanese🇯🇵,Korean🇰🇷, Spanish🇪🇸, Turkish🇹🇷 and Vietnamese🇻🇳
  • Easy Integration: Easy integrate any HuggingFace and MLX Compatible Open-Source Model.

Installation and Usage

Easy Setup

  • Install Pip
  • Install: pip install chat-with-mlx
  • Note: Setting up this way is really hard if you want to add your own model (which I will let you add later in the UI), but it is a fast way to test the app.

Manual Pip Installation

git clone https://github.com/qnguyen3/chat-with-mlx.git
cd chat-with-mlx
python -m venv .venv
source .venv/bin/activate
pip install -e .

Manual Conda Installation

git clone https://github.com/qnguyen3/chat-with-mlx.git
cd chat-with-mlx
conda create -n mlx-chat python=3.11
conda activate mlx-chat
pip install -e .

Usage

  • Start the app: chat-with-mlx

Supported Models

  • Google Gemma-7b-it, Gemma-2b-it
  • Mistral-7B-Instruct, OpenHermes-2.5-Mistral-7B, NousHermes-2-Mistral-7B-DPO
  • Mixtral-8x7B-Instruct-v0.1, Nous-Hermes-2-Mixtral-8x7B-DPO
  • Quyen-SE (0.5B), Quyen (4B)
  • StableLM 2 Zephyr (1.6B)
  • Vistral-7B-Chat, VBD-Llama2-7b-chat, vinallama-7b-chat

Add Your Own Models

Solution 1

This solution only requires you to add your own model with a simple .yaml config file in chat_with_mlx/models/configs

examlple.yaml:

original_repo: google/gemma-2b-it # The original HuggingFace Repo, this helps with displaying
mlx-repo: mlx-community/quantized-gemma-2b-it # The MLX models Repo, most are available through `mlx-community`
quantize: 4bit # Optional: [4bit, 8bit]
default_language: multi # Optional: [en, es, zh, vi, multi]

After adding the .yaml config, you can go and load the model inside the app (for now you need to keep track the download through your Terminal/CLI)

Solution 2

Do the same as Solution 1. Sometimes, the download_snapshot method that is used to download the models are slow, and you would like to download it by your own.

After the adding the .yaml config, you can download the repo by yourself and add it to chat_with_mlx/models/download. The folder name MUST be the same as the orginal repo name without the username (so google/gemma-2b-it -> gemma-2b-it).

A complete model should have the following files:

  • model.safetensors
  • config.json
  • merges.txt
  • model.safetensors.index.json
  • special_tokens_map.json - this is optional by model
  • tokenizer_config.json
  • tokenizer.json
  • vocab.json

Known Issues

  • You HAVE TO unload a model before loading in a new model. Otherwise, you would need to restart the app to use a new model, it would stuck at the old one.
  • When the model is downloading by Solution 1, the only way to stop it is to hit control + C on your Terminal.
  • If you want to switch the file, you have to manually hit STOP INDEXING. Otherwise, the vector database would add the second document to the current database.
  • You have to choose a dataset mode (Document or YouTube) in order for it to work.

WHY MLX?

MLX is an array framework for machine learning research on Apple silicon, brought to you by Apple machine learning research.

Some key features of MLX include:

  • Familiar APIs: MLX has a Python API that closely follows NumPy. MLX also has fully featured C++, C, and Swift APIs, which closely mirror the Python API. MLX has higher-level packages like mlx.nn and mlx.optimizers with APIs that closely follow PyTorch to simplify building more complex models.

  • Composable function transformations: MLX supports composable function transformations for automatic differentiation, automatic vectorization, and computation graph optimization.

  • Lazy computation: Computations in MLX are lazy. Arrays are only materialized when needed.

  • Dynamic graph construction: Computation graphs in MLX are constructed dynamically. Changing the shapes of function arguments does not trigger slow compilations, and debugging is simple and intuitive.

  • Multi-device: Operations can run on any of the supported devices (currently the CPU and the GPU).

  • Unified memory: A notable difference from MLX and other frameworks is the unified memory model. Arrays in MLX live in shared memory. Operations on MLX arrays can be performed on any of the supported device types without transferring data.

Acknowledgement

I would like to send my many thanks to:

  • The Apple Machine Learning Research team for the amazing MLX library.
  • LangChain and ChromaDB for such easy RAG Implementation
  • People from Nous, VinBigData and Qwen team that helped me during the implementation.

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