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Model Overview

Description:

Llama-3.1-Nemotron-70B-Instruct is a large language model customized by NVIDIA to improve the helpfulness of LLM generated responses to user queries.

This model reaches Arena Hard of 85.0, AlpacaEval 2 LC of 57.6 and GPT-4-Turbo MT-Bench of 8.98, which are known to be predictive of LMSys Chatbot Arena Elo

As of 1 Oct 2024, this model is #1 on all three automatic alignment benchmarks (verified tab for AlpacaEval 2 LC), edging out strong frontier models such as GPT-4o and Claude 3.5 Sonnet.

This model was trained using RLHF (specifically, REINFORCE), Llama-3.1-Nemotron-70B-Reward and HelpSteer2-Preference prompts on a Llama-3.1-70B-Instruct model as the initial policy.

If you prefer to use the model in the HuggingFace Transformers codebase, we have done a model conversion format into Llama-3.1-Nemotron-70B-Instruct-HF .

Try hosted inference for free at build.nvidia.com - it comes with an OpenAI-compatible API interface.

See details on our paper at https://arxiv.org/abs/2410.01257 - as a preview, this model can correctly the question How many r in strawberry? without specialized prompting or additional reasoning tokens:

A sweet question!
Let’s count the “R”s in “strawberry”:
1. S
2. T
3. R
4. A
5. W
6. B
7. E
8. R
9. R
10. Y
There are **3 “R”s** in the word “strawberry”.

Note: This model is a demonstration of our techniques for improving helpfulness in general-domain instruction following. It has not been tuned for performance in specialized domains such as math.

Terms of use

By accessing this model, you are agreeing to the LLama 3.1 terms and conditions of the license, acceptable use policy and Meta’s privacy policy

Evaluation Metrics

As of 1 Oct 2024, Llama-3.1-Nemotron-70B-Instruct performs best on Arena Hard, AlpacaEval 2 LC (verified tab) and MT Bench (GPT-4-Turbo)

Model Arena Hard AlpacaEval MT-Bench Mean Response Length
Details (95% CI) 2 LC (SE) (GPT-4-Turbo) (# of Characters for MT-Bench)
Llama-3.1-Nemotron-70B-Instruct 85.0 (-1.5, 1.5) 57.6 (1.65) 8.98 2199.8
Llama-3.1-70B-Instruct 55.7 (-2.9, 2.7) 38.1 (0.90) 8.22 1728.6
Llama-3.1-405B-Instruct 69.3 (-2.4, 2.2) 39.3 (1.43) 8.49 1664.7
Claude-3-5-Sonnet-20240620 79.2 (-1.9, 1.7) 52.4 (1.47) 8.81 1619.9
GPT-4o-2024-05-13 79.3 (-2.1, 2.0) 57.5 (1.47) 8.74 1752.2

Usage:

We demonstrate inference using NVIDIA NeMo Framework, which allows hassle-free model deployment based on NVIDIA TRT-LLM, a highly optimized inference solution focussing on high throughput and low latency.

Pre-requisite: You would need at least a machine with 4 40GB or 2 80GB NVIDIA GPUs, and 150GB of free disk space.

  1. Please sign up to get free and immediate access to NVIDIA NeMo Framework container. 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 have an 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. Else, skip this 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/nvidia/nemo:24.05.llama3.1
    
  5. Download the checkpoint

    git lfs install
    git clone https://huggingface.co/nvidia/Llama-3.1-Nemotron-70B-Instruct
    
  6. Run Docker container (In addition, to use Llama3.1 tokenizer, you need to export HF_HOME=<YOUR_HF_HOME_CONTAINING_TOKEN_WITH_LLAMA3.1_70B_ACCESS>)

    docker run --gpus all -it --rm --shm-size=150g -p 8000:8000 -v ${PWD}/Llama-3.1-Nemotron-70B-Instruct:/opt/checkpoints/Llama-3.1-Nemotron-70B-Instruct,${HF_HOME}:/hf_home -w /opt/NeMo nvcr.io/nvidia/nemo:24.05.llama3.1
    
  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 TRT-LLM. For an explanation of each argument and advanced usage, please refer to NeMo FW Deployment Guide

    HF_HOME=/hf_home python scripts/deploy/nlp/deploy_inframework_triton.py --nemo_checkpoint /opt/checkpoints/Llama-3.1-Nemotron-70B-Instruct --model_type="llama" --triton_model_name nemotron --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 (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
    
    python scripts/deploy/nlp/query_inframework.py -mn nemotron -p "How many r in strawberry?" -mol 1024
    

Contact

E-Mail: Zhilin Wang

Citation

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

@misc{wang2024helpsteer2preferencecomplementingratingspreferences,
      title={HelpSteer2-Preference: Complementing Ratings with Preferences}, 
      author={Zhilin Wang and Alexander Bukharin and Olivier Delalleau and Daniel Egert and Gerald Shen and Jiaqi Zeng and Oleksii Kuchaiev and Yi Dong},
      year={2024},
      eprint={2410.01257},
      archivePrefix={arXiv},
      primaryClass={cs.LG},
      url={https://arxiv.org/abs/2410.01257}, 
}
@misc{wang2024helpsteer2,
      title={HelpSteer2: Open-source dataset for training top-performing reward models}, 
      author={Zhilin Wang and Yi Dong and Olivier Delalleau and Jiaqi Zeng and Gerald Shen and Daniel Egert and Jimmy J. Zhang and Makesh Narsimhan Sreedhar and Oleksii Kuchaiev},
      year={2024},
      eprint={2406.08673},
      archivePrefix={arXiv},
      primaryClass={id='cs.CL' full_name='Computation and Language' is_active=True alt_name='cmp-lg' in_archive='cs' is_general=False description='Covers natural language processing. Roughly includes material in ACM Subject Class I.2.7. Note that work on artificial languages (programming languages, logics, formal systems) that does not explicitly address natural-language issues broadly construed (natural-language processing, computational linguistics, speech, text retrieval, etc.) is not appropriate for this area.'}
}

References(s):

Model Architecture:

Architecture Type: Transformer
Network Architecture: Llama 3.1

Input:

Input Type(s): Text
Input Format: String
Input Parameters: One Dimensional (1D)
Other Properties Related to Input: Max of 128k tokens

Output:

Output Type(s): Text
Output Format: String
Output Parameters: One Dimensional (1D)
Other Properties Related to Output: Max of 4k tokens

Software Integration:

Supported Hardware Microarchitecture Compatibility:

  • NVIDIA Ampere
  • NVIDIA Hopper
  • NVIDIA Turing
    Supported Operating System(s): Linux

Model Version:

v1.0

Training & Evaluation:

Datasets:

Data Collection Method by dataset

  • [Hybrid: Human, Synthetic]

Labeling Method by dataset

  • [Human]

Link:

Properties (Quantity, Dataset Descriptions, Sensor(s)):

  • 21, 362 prompt-responses built to make more models more aligned with human preference - specifically more helpful, factually-correct, coherent, and customizable based on complexity and verbosity.
  • 20, 324 prompt-responses used for training and 1, 038 used for validation.

Inference:

Engine: Triton
Test Hardware: H100, A100 80GB, A100 40GB

Ethical Considerations:

NVIDIA believes Trustworthy AI is a shared responsibility and we have established policies and practices to enable development for a wide array of AI applications. When downloaded or used in accordance with our terms of service, developers should work with their supporting model team to ensure this model meets requirements for the relevant industry and use case and addresses unforeseen product misuse. For more detailed information on ethical considerations for this model, please see the Model Card++ Explainability, Bias, Safety & Security, and Privacy Subcards. Please report security vulnerabilities or NVIDIA AI Concerns here.

Please report security vulnerabilities or NVIDIA AI Concerns here.

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