Text Generation
NeMo
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nvidia
steerlm
llama2
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metadata
license: llama2
library_name: nemo
language:
  - en
pipeline_tag: text-generation
inference: false
fine-tuning: true
tags:
  - nvidia
  - steerlm
  - llama2
datasets:
  - nvidia/HelpSteer
  - OpenAssistant/oasst1

Llama2-70B-SteerLM-Chat

License

The use of this model is governed by the Llama 2 Community License Agreement

Description:

Llama2-70B-SteerLM-Chat is a 70 billion parameter generative language model instruct-tuned using SteerLM technique. It takes input with context length up to 4,096 tokens. The model has been aligned using the SteerLM method developed by NVIDIA to allow for user control of model outputs (in creativity, complexity and verbosity) during inference while having simplified training compared to RLHF techniques.

Llama2-70B-SteerLM-Chat reaches 7.54 on MT Bench, the highest among models trained on open-source datasets based on MT Bench Leaderboard as of 15 Nov 2023.

MT Bench Categories

HelpSteer Paper : HelpSteer: Multi-attribute Helpfulness Dataset for SteerLM

SteerLM Paper: SteerLM: Attribute Conditioned SFT as an (User-Steerable) Alternative to RLHF

Llama2-70B-SteerLM-Chat is trained with NVIDIA NeMo, an end-to-end, cloud-native framework to build, customize, and deploy generative AI models anywhere. It includes training and inferencing frameworks, guardrailing toolkits, data curation tools, and pretrained models, offering enterprises an easy, cost-effective, and fast way to adopt generative AI.

Model Architecture:

Architecture Type: Transformer

Network Architecture: Llama 2

The SteerLM method involves the following key steps:

  1. Train an attribute prediction model on human annotated data to evaluate response quality.
  2. Use this model to annotate diverse datasets and enrich training data.
  3. Perform conditioned fine-tuning to align responses with specified combinations of attributes.

Llama2-70B-SteerLM-Chat applies this technique on top of the Llama 2 70B Foundational model architecture. It was pretrained on internet-scale data and then aligned using Open Assistant and HelpSteer.

Software Integration:

Runtime Engine(s): NVIDIA AI Enterprise

Toolkit: NeMo Framework

Supported Hardware Architecture Compatibility: H100, A100 80GB, A100 40GB

Steps to run inference:

Pre-requisite: you would need at least a machine with 4 40GB or 2 80GB NVIDIA GPUs, and 300GB of free disk space.

  1. Please sign up to get access to container needed for free on NVIDIA NeMo Framework. If you don’t have an NVIDIA NGC account, you will be prompted to sign up for an account before proceeding.

  2. If you don’t already have NVIDIA NGC API key, sign into NVIDIA NGC, selecting organization/team: ea-bignlp/ga-participants and click Generate API key. Save this key for the next step.

  3. On your machine, docker login to nvcr.io using

    docker login nvcr.io
    Username: $oauthtoken
    Password: <Your Saved NGC API Key>
    
  4. Download the required container

    docker pull nvcr.io/ea-bignlp/ga-participants/nemofw-inference:23.10
    
  5. Download the checkpoint

    git lfs install
    git clone https://huggingface.co/nvidia/Llama2-70B-SteerLM-Chat
    
  6. Run Docker container

    docker run --gpus all -it --rm --shm-size=300g -p 8000:8000 -v ${PWD}/Llama2-70B-SteerLM-Chat.nemo:/opt/checkpoints/Llama2-70B-SteerLM-Chat.nemo -w /opt/NeMo nvcr.io/ea-bignlp/ga-participants/nemofw-inference:23.10
    
  7. Within the container, start the server in the background. This step does both conversion of the nemo checkpoint to TRT-LLM and then deployment using TRTLLM. For an explanation of each argument and advanced usage, please refer to NeMo FW Deployment Guide

    python scripts/deploy/deploy_triton.py --nemo_checkpoint /opt/checkpoints/Llama2-70B-SteerLM-Chat.nemo --model_type="llama" --triton_model_name Llama2-70B-SteerLM-Chat --triton_http_address 0.0.0.0 --triton_port 8000 --num_gpus 2 --max_input_len 3072 --max_output_len 1024 --max_batch_size 1 &
    
  8. Once the server is ready in 20-45 mins depending on your computer (i.e. when you see this messages below), you are ready to launch your client code

    Started HTTPService at 0.0.0.0:8000
    Started GRPCInferenceService at 0.0.0.0:8001
    Started Metrics Service at 0.0.0.0:8002
    
    from nemo.deploy import NemoQuery
    
    PROMPT_TEMPLATE = """<extra_id_0>System
    A chat between a curious user and an artificial intelligence assistant. The assistant gives helpful, detailed, and polite answers to the user's questions.
    <extra_id_1>User
    {prompt}
    <extra_id_1>Assistant
    <extra_id_2>quality:4,toxicity:0,humor:0,creativity:0,helpfulness:4,correctness:4,coherence:4,complexity:4,verbosity:4"""
    
    question = "Write a poem on NVIDIA in the style of Shakespeare"
    prompt = PROMPT_TEMPLATE.format(prompt=question)
    print(prompt)
    
    nq = NemoQuery(url="localhost:8000", model_name="Llama2-70B-SteerLM-Chat")
    output = nq.query_llm(prompts=[prompt], max_output_token=15, top_k=1, top_p=0.0, temperature=1.0)
    
    #this container currently does not support stop words but you do something like this as workaround
    output = output[0][0].split("\n<extra_id_1>")[0]
    print(output)
    
  9. Prompt formatting for single and multi turn conversations

    Single Turn

    <extra_id_0>System
    A chat between a curious user and an artificial intelligence assistant. The assistant gives helpful, detailed, and polite answers to the user's questions.
    <extra_id_1>User
    {prompt 1}
    <extra_id_1>Assistant
    <extra_id_2>quality:4,toxicity:0,humor:0,creativity:0,helpfulness:4,correctness:4,coherence:4,complexity:4,verbosity:4
    

    Multi-Turn

    <extra_id_0>System
    A chat between a curious user and an artificial intelligence assistant. The assistant gives helpful, detailed, and polite answers to the user's questions.
    <extra_id_1>User
    {prompt 1}
    <extra_id_1>Assistant
    <extra_id_2>quality:4,toxicity:0,humor:0,creativity:0,helpfulness:4,correctness:4,coherence:4,complexity:4,verbosity:4
    {response 1}
    <extra_id_1>User
    {prompt 2}
    <extra_id_1>Assistant
    <extra_id_2>quality:4,toxicity:0,humor:0,creativity:0,helpfulness:4,correctness:4,coherence:4,complexity:4,verbosity:4
    

    Each of the attributes (e.g. creativity, complexity and verbosity) can receive integer values in the range [0, 1, 2, 3, 4].

Evaluation

MT-bench

Category score
total 7.54
writing 7.92
roleplay 8.9
extraction 8.98
stem 9.2
humanities 9.7
reasoning 6.35
math 4.55
coding 4.75

Intended use

The SteerLM-Llama2-70B model is for users who want to customize a model’s response during inference.

Ethical use: Technology can have a profound impact on people and the world, and NVIDIA is committed to enabling trust and transparency in AI development. NVIDIA encourages users to adopt principles of AI ethics and trustworthiness to guide your business decisions by following the guidelines in the Llama 2 Community License Agreement.

Limitations

The model was trained on the data that contains toxic language and societal biases originally crawled from the Internet. Therefore, the model may amplify those biases and return toxic responses especially when prompted with toxic prompts.

The model may generate answers that may be inaccurate, omit key information, or include irrelevant or redundant text producing socially unacceptable or undesirable text, even if the prompt itself does not include anything explicitly offensive.

Contact

E-Mail: Zhilin Wang

Citation

If you find this model useful, please cite the following works

@misc{wang2023helpsteer,
      title={HelpSteer: Multi-attribute Helpfulness Dataset for SteerLM}, 
      author={Zhilin Wang and Yi Dong and Jiaqi Zeng and Virginia Adams and Makesh Narsimhan Sreedhar and Daniel Egert and Olivier Delalleau and Jane Polak Scowcroft and Neel Kant and Aidan Swope and Oleksii Kuchaiev},
      year={2023},
      eprint={2311.09528},
      archivePrefix={arXiv},
      primaryClass={cs.CL}
}
@misc{dong2023steerlm,
      title={SteerLM: Attribute Conditioned SFT as an (User-Steerable) Alternative to RLHF}, 
      author={Yi Dong and Zhilin Wang and Makesh Narsimhan Sreedhar and Xianchao Wu and Oleksii Kuchaiev},
      year={2023},
      eprint={2310.05344},
      archivePrefix={arXiv},
      primaryClass={cs.CL}
}