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Subnet LLM, previously Petals Tensor

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Subnet 1 - the first installment of Hypertensor subnets.
Run large language models at home, BitTorrent-style.
Fine-tuning and inference up to 10x faster than offloading


Generate text with distributed Llama 2 (70B), Falcon (40B+), BLOOM (176B) (or their derivatives), and fine‑tune them for your own tasks — right from your desktop computer or Google Colab:

from transformers import AutoTokenizer
from petals import AutoDistributedModelForCausalLM

# Choose any model available at https://health.petals.dev
model_name = "petals-team/StableBeluga2"  # This one is fine-tuned Llama 2 (70B)

# Connect to a distributed network hosting model layers
tokenizer = AutoTokenizer.from_pretrained(model_name)
model = AutoDistributedModelForCausalLM.from_pretrained(model_name)

# Run the model as if it were on your computer
inputs = tokenizer("A cat sat", return_tensors="pt")["input_ids"]
outputs = model.generate(inputs, max_new_tokens=5)
print(tokenizer.decode(outputs[0]))  # A cat sat on a mat...

🚀  Try now in Colab

🔏 Privacy. Your data will be processed with the help of other people in the public swarm. Learn more about privacy here. For sensitive data, you can set up a private swarm among people you trust.

🦙 Want to run Llama 2? Request access to its weights at the ♾️ Meta AI website and 🤗 Model Hub, then run huggingface-cli login in the terminal before loading the model. Or just try it in our chatbot app.

💬 Any questions? Ping us in our Discord!

Getting Started

Install:

cd into directory, start your virtual environment and install the repository:

python -m venv .venv
source .venv/bin/activate
python -m pip install .

Update .env:

Copy the .env.example file, rename it to .env in the root directory, and insert your seed phrase:

PHRASE="<mnemonic>"

Update RPC:

In .env, update the DEV_URL with a live RPC IP and port:

If the RPC isn't correct you will likely receive a ConnectionRefusedError: [Errno 111] Connection refused error.

DEV_URL = "ws://127.000.000.000:9945"

Run Server:

Before running your server, ensure your account has enough balance for the required minimum stake.

Use the port you have open specifically for Petals Tensor for --port, and use the port the blockchain will call for testing your peer for --tcp_port.

python -m petals_tensor.cli.run_server [model_path] --public_ip [public_ip] --port [port] --tcp_public_ip [tcp_public_ip] --tcp_port [tcp_port]

Arguments:

--model_path: The HuggingFace model path.

--public_ip: The public IP of the server for other peers to connect to.

--port: The port of the server for other peers to connect to.

--tcp_public_ip: The IP for the blockchain to call.

--tcp_port: The port for the blockchain to call.


Socials:

Message us!

💬 Discord: our Discord!

🐦 Twitter: our Twitter!

The following is the original Petals documentation. Much of this will still apply but refer to the documentation here: https://docs.hypertensor.org

Connect your GPU and increase Petals capacity

Petals is a community-run system — we rely on people sharing their GPUs. You can check out available models and help serving one of them! As an example, here is how to host a part of Stable Beluga 2 on your GPU:

🐧 Linux + Anaconda. Run these commands for NVIDIA GPUs (or follow this for AMD):

conda install pytorch pytorch-cuda=11.7 -c pytorch -c nvidia
pip install git+https://github.com/bigscience-workshop/petals
python -m petals.cli.run_server petals-team/StableBeluga2

🪟 Windows + WSL. Follow this guide on our Wiki.

🐋 Docker. Run our Docker image for NVIDIA GPUs (or follow this for AMD):

sudo docker run -p 31330:31330 --ipc host --gpus all --volume petals-cache:/cache --rm \
    learningathome/petals:main \
    python -m petals.cli.run_server --port 31330 petals-team/StableBeluga2

🍏 macOS + Apple M1/M2 GPU. Install Homebrew, then run these commands:

brew install python
python3 -m pip install git+https://github.com/bigscience-workshop/petals
python3 -m petals.cli.run_server petals-team/StableBeluga2

📚  Learn more (how to use multiple GPUs, start the server on boot, etc.)

💬 Any questions? Ping us in our Discord!

🦙 Want to host Llama 2? Request access to its weights at the ♾️ Meta AI website and 🤗 Model Hub, generate an 🔑 access token, then add --token YOUR_TOKEN_HERE to the python -m petals.cli.run_server command.

🔒 Security. Hosting a server does not allow others to run custom code on your computer. Learn more here.

🏆 Thank you! Once you load and host 10+ blocks, we can show your name or link on the swarm monitor as a way to say thanks. You can specify them with --public_name YOUR_NAME.

How does it work?

  • You load a small part of the model, then join a network of people serving the other parts. Single‑batch inference runs at up to 6 tokens/sec for Llama 2 (70B) and up to 4 tokens/sec for Falcon (180B) — enough for chatbots and interactive apps.
  • You can employ any fine-tuning and sampling methods, execute custom paths through the model, or see its hidden states. You get the comforts of an API with the flexibility of PyTorch and 🤗 Transformers.

📜  Read paper            📚  See FAQ

📚 Tutorials, examples, and more

Basic tutorials:

  • Getting started: tutorial
  • Prompt-tune Llama-65B for text semantic classification: tutorial
  • Prompt-tune BLOOM to create a personified chatbot: tutorial

Useful tools:

Advanced guides:

  • Launch a private swarm: guide
  • Run a custom model: guide

Benchmarks

Please see Section 3.3 of our paper.

🛠️ Contributing

Please see our FAQ on contributing.

📜 Citation

Alexander Borzunov, Dmitry Baranchuk, Tim Dettmers, Max Ryabinin, Younes Belkada, Artem Chumachenko, Pavel Samygin, and Colin Raffel. Petals: Collaborative Inference and Fine-tuning of Large Models. arXiv preprint arXiv:2209.01188, 2022.

@article{borzunov2022petals,
  title = {Petals: Collaborative Inference and Fine-tuning of Large Models},
  author = {Borzunov, Alexander and Baranchuk, Dmitry and Dettmers, Tim and Ryabinin, Max and Belkada, Younes and Chumachenko, Artem and Samygin, Pavel and Raffel, Colin},
  journal = {arXiv preprint arXiv:2209.01188},
  year = {2022},
  url = {https://arxiv.org/abs/2209.01188}
}

This project is a part of the BigScience research workshop.

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