Run a fast ChatGPT-like model locally on your device. The screencast below is not sped up and running on an M2 Macbook Air with 4GB of weights.
This combines the LLaMA foundation model with an open reproduction of Stanford Alpaca a fine-tuning of the base model to obey instructions (akin to the RLHF used to train ChatGPT) and a set of modifications to llama.cpp to add a chat interface.
Download the zip file corresponding to your operating system from the latest release. On Windows, download alpaca-win.zip
, on Mac (both Intel or ARM) download alpaca-mac.zip
, and on Linux (x64) download alpaca-linux.zip
.
Download ggml-alpaca-7b-q4.bin
and place it in the same folder as the chat
executable in the zip file. There are several options:
# Any of these commands will work.
curl -o ggml-alpaca-7b-q4.bin -C - https://gateway.estuary.tech/gw/ipfs/QmQ1bf2BTnYxq73MFJWu1B7bQ2UD6qG7D7YDCxhTndVkPC
curl -o ggml-alpaca-7b-q4.bin -C - https://ipfs.io/ipfs/QmQ1bf2BTnYxq73MFJWu1B7bQ2UD6qG7D7YDCxhTndVkPC
curl -o ggml-alpaca-7b-q4.bin -C - https://cloudflare-ipfs.com/ipfs/QmQ1bf2BTnYxq73MFJWu1B7bQ2UD6qG7D7YDCxhTndVkPC
# BitTorrent
magnet:?xt=urn:btih:5aaceaec63b03e51a98f04fd5c42320b2a033010&dn=ggml-alpaca-7b-q4.bin&tr=udp%3A%2F%2Ftracker.opentrackr.org%3A1337%2Fannounce&tr=udp%3A%2F%2Fopentracker.i2p.rocks%3A6969%2Fannounce
https://btcache.me/torrent/5AACEAEC63B03E51A98F04FD5C42320B2A033010
https://torrage.info/torrent.php?h=5aaceaec63b03e51a98f04fd5c42320b2a033010
Once you've downloaded the model weights and placed them into the same directory as the chat
or chat.exe
executable, run:
./chat
The weights are based on the published fine-tunes from alpaca-lora
, converted back into a pytorch checkpoint with a modified script and then quantized with llama.cpp the regular way.
If you have more than 10GB of RAM, you can use the higher quality 13B ggml-alpaca-13b-q4.bin
model. To download the weights, you can use
# Any of these commands will work.
curl -o ggml-alpaca-13b-q4.bin -C - https://gateway.estuary.tech/gw/ipfs/Qme6wyw9MzqbrUMpFNVq42rC1kSdko7MGT9CL7o1u9Cv9G
curl -o ggml-alpaca-13b-q4.bin -C - https://ipfs.io/ipfs/Qme6wyw9MzqbrUMpFNVq42rC1kSdko7MGT9CL7o1u9Cv9G
curl -o ggml-alpaca-13b-q4.bin -C - https://cloudflare-ipfs.com/ipfs/Qme6wyw9MzqbrUMpFNVq42rC1kSdko7MGT9CL7o1u9Cv9G
# BitTorrent
magnet:?xt=urn:btih:053b3d54d2e77ff020ebddf51dad681f2a651071&dn=ggml-alpaca-13b-q4.bin&tr=udp%3A%2F%2Ftracker.opentrackr.org%3A1337%2Fannounce&tr=udp%3A%2F%2Fopentracker.i2p.rocks%3A6969%2Fannounce&tr=udp%3A%2F%2Ftracker.openbittorrent.com%3A6969%2Fannounce&tr=udp%3A%2F%2F9.rarbg.com%3A2810%2Fannounce
https://btcache.me/torrent/053B3D54D2E77FF020EBDDF51DAD681F2A651071
https://torrage.info/torrent.php?h=053b3d54d2e77ff020ebddf51dad681f2a651071
Once you've downloaded the weights, you can run the following command to enter chat
./chat -m ggml-alpaca-13b-q4.bin
git clone https://github.com/antimatter15/alpaca.cpp
cd alpaca.cpp
make chat
./chat
- Download and install CMake: https://cmake.org/download/
- Download and install
git
. If you've never used git before, consider a GUI client like https://desktop.github.com/ - Clone this repo using your git client of choice (for GitHub Desktop, go to File -> Clone repository -> From URL and paste
https://github.com/antimatter15/alpaca.cpp
in as the URL) - Open a Windows Terminal inside the folder you cloned the repository to
- Run the following commands one by one:
cmake .
cmake --build . --config Release
- Download the weights via any of the links in "Get started" above, and save the file as
ggml-alpaca-7b-q4.bin
in the main Alpaca directory. - In the terminal window, run this command:
.\Release\chat.exe
- (You can add other launch options like
--n 8
as preferred onto the same line) - You can now type to the AI in the terminal and it will reply. Enjoy!
This combines Facebook's LLaMA, Stanford Alpaca, alpaca-lora and corresponding weights by Eric Wang (which uses Jason Phang's implementation of LLaMA on top of Hugging Face Transformers), and llama.cpp by Georgi Gerganov. The chat implementation is based on Matvey Soloviev's Interactive Mode for llama.cpp. Inspired by Simon Willison's getting started guide for LLaMA. Andy Matuschak's thread on adapting this to 13B, using fine tuning weights by Sam Witteveen.
Note that the model weights are only to be used for research purposes, as they are derivative of LLaMA, and uses the published instruction data from the Stanford Alpaca project which is generated by OpenAI, which itself disallows the usage of its outputs to train competing models.