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A scalable generative AI framework built for researchers and developers working on Large Language Models, Multimodal, and Speech AI (Automatic Speech Recognition and Text-to-Speech)

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Project Status: Active – The project has reached a stable, usable state and is being actively developed. Documentation CodeQL NeMo core license and license for collections in this repo Release version Python version PyPi total downloads Code style: black

NVIDIA NeMo Framework

Latest News

Large Language Models and Multimodal
Accelerate your generative AI journey with NVIDIA NeMo Framework on GKE (2024/03/16) An end-to-end walkthrough to train generative AI models on the Google Kubernetes Engine (GKE) using the NVIDIA NeMo Framework is available at https://github.com/GoogleCloudPlatform/nvidia-nemo-on-gke. The walkthrough includes detailed instructions on how to set up a Google Cloud Project and pre-train a GPT model using the NeMo Framework.

Bria Builds Responsible Generative AI for Enterprises Using NVIDIA NeMo, Picasso (2024/03/06) Bria, a Tel Aviv startup at the forefront of visual generative AI for enterprises now leverages the NVIDIA NeMo Framework. The Bria.ai platform uses reference implementations from the NeMo Multimodal collection, trained on NVIDIA Tensor Core GPUs, to enable high-throughput and low-latency image generation. Bria has also adopted NVIDIA Picasso, a foundry for visual generative AI models, to run inference.

New NVIDIA NeMo Framework Features and NVIDIA H200 (2023/12/06) NVIDIA NeMo Framework now includes several optimizations and enhancements, including: 1) Fully Sharded Data Parallelism (FSDP) to improve the efficiency of training large-scale AI models, 2) Mix of Experts (MoE)-based LLM architectures with expert parallelism for efficient LLM training at scale, 3) Reinforcement Learning from Human Feedback (RLHF) with TensorRT-LLM for inference stage acceleration, and 4) up to 4.2x speedups for Llama 2 pre-training on NVIDIA H200 Tensor Core GPUs.

H200-NeMo-performance

NVIDIA now powers training for Amazon Titan Foundation models (2023/11/28) NVIDIA NeMo Framework now empowers the Amazon Titan foundation models (FM) with efficient training of large language models (LLMs). The Titan FMs form the basis of Amazon’s generative AI service, Amazon Bedrock. The NeMo Framework provides a versatile framework for building, customizing, and running LLMs.

Speech Recognition
New Standard for Speech Recognition and Translation from the NVIDIA NeMo Canary Model (2024/04/18) The NeMo team just released Canary, a multilingual model that transcribes speech in English, Spanish, German, and French with punctuation and capitalization. Canary also provides bi-directional translation, between English and the three other supported languages.

Pushing the Boundaries of Speech Recognition with NVIDIA NeMo Parakeet ASR Models (2024/04/18) NVIDIA NeMo, an end-to-end platform for the development of multimodal generative AI models at scale anywhere—on any cloud and on-premises—released the Parakeet family of automatic speech recognition (ASR) models. These state-of-the-art ASR models, developed in collaboration with Suno.ai, transcribe spoken English with exceptional accuracy.

Turbocharge ASR Accuracy and Speed with NVIDIA NeMo Parakeet-TDT (2024/04/18) NVIDIA NeMo, an end-to-end platform for developing multimodal generative AI models at scale anywhere—on any cloud and on-premises—recently released Parakeet-TDT. This new addition to the  NeMo ASR Parakeet model family boasts better accuracy and 64% greater speed over the previously best model, Parakeet-RNNT-1.1B.

Introduction

NVIDIA NeMo Framework is a generative AI framework built for researchers and pytorch developers working on large language models (LLMs), multimodal models (MM), automatic speech recognition (ASR), and text-to-speech synthesis (TTS). The primary objective of NeMo is to provide a scalable framework for researchers and developers from industry and academia to more easily implement and design new generative AI models by being able to leverage existing code and pretrained models.

For technical documentation, please see the NeMo Framework User Guide.

All NeMo models are trained with Lightning and training is automatically scalable to 1000s of GPUs.

When applicable, NeMo models take advantage of the latest possible distributed training techniques, including parallelism strategies such as

  • data parallelism
  • tensor parallelism
  • pipeline model parallelism
  • fully sharded data parallelism (FSDP)
  • sequence parallelism
  • context parallelism
  • mixture-of-experts (MoE)

and mixed precision training recipes with bfloat16 and FP8 training.

NeMo's Transformer based LLM and Multimodal models leverage NVIDIA Transformer Engine for FP8 training on NVIDIA Hopper GPUs and leverages NVIDIA Megatron Core for scaling transformer model training.

NeMo LLMs can be aligned with state of the art methods such as SteerLM, DPO and Reinforcement Learning from Human Feedback (RLHF), see NVIDIA NeMo Aligner for more details.

NeMo LLM and Multimodal models can be deployed and optimized with NVIDIA Inference Microservices (Early Access).

NeMo ASR and TTS models can be optimized for inference and deployed for production use-cases with NVIDIA Riva.

For scaling NeMo LLM and Multimodal training on Slurm clusters or public clouds, please see the NVIDIA Framework Launcher. The NeMo Framework launcher has extensive recipes, scripts, utilities, and documentation for training NeMo LLMs and Multimodal models and also has an Autoconfigurator which can be used to find the optimal model parallel configuration for training on a specific cluster. To get started quickly with the NeMo Framework Launcher, please see the NeMo Framework Playbooks The NeMo Framework Launcher does not currently support ASR and TTS training but will soon.

Getting started with NeMo is simple. State of the Art pretrained NeMo models are freely available on HuggingFace Hub and NVIDIA NGC. These models can be used to generate text or images, transcribe audio, and synthesize speech in just a few lines of code.

We have extensive tutorials that can be run on Google Colab or with our NGC NeMo Framework Container. and we have playbooks for users that want to train NeMo models with the NeMo Framework Launcher.

For advanced users that want to train NeMo models from scratch or finetune existing NeMo models we have a full suite of example scripts that support multi-GPU/multi-node training.

Key Features

Requirements

  1. Python 3.10 or above
  2. Pytorch 1.13.1 or above
  3. NVIDIA GPU, if you intend to do model training

Developer Documentation

Version Status Description
Latest Documentation Status Documentation of the latest (i.e. main) branch.
Stable Documentation Status Documentation of the stable (i.e. most recent release) branch.

Getting help with NeMo

FAQ can be found on NeMo's Discussions board. You are welcome to ask questions or start discussions there.

Installation

The NeMo Framework can be installed in a variety of ways, depending on your needs. Depending on the domain, you may find one of the following installation methods more suitable.

  • Conda / Pip - Refer to the Conda and Pip sections for installation instructions.
    • This is recommended for Automatic Speech Recognition (ASR) and Text-to-Speech (TTS) domains.
    • When using a Nvidia PyTorch container as the base, this is the recommended installation method for all domains.
  • Docker Containers - Refer to the Docker containers section for installation instructions.
    • This is recommended for Large Language Models (LLM), Multimodal and Vision domains.
    • NeMo LLM & Multimodal Container - nvcr.io/nvidia/nemo:24.03.framework
    • NeMo Speech Container - nvcr.io/nvidia/nemo:24.01.speech
  • LLM and Multimodal Dependencies - Refer to the LLM and Multimodal dependencies section for isntallation instructions. * It's higly recommended to start with a base NVIDIA PyTorch container: nvcr.io/nvidia/pytorch:24.02-py3

Conda

We recommend installing NeMo in a fresh Conda environment.

conda create --name nemo python==3.10.12
conda activate nemo

Install PyTorch using their configurator.

conda install pytorch torchvision torchaudio pytorch-cuda=11.8 -c pytorch -c nvidia

The command used to install PyTorch may depend on your system. Please use the configurator linked above to find the right command for your system.

Pip

Use this installation mode if you want the latest released version.

apt-get update && apt-get install -y libsndfile1 ffmpeg
pip install Cython
pip install nemo_toolkit['all']

Depending on the shell used, you may need to use "nemo_toolkit[all]" instead in the above command.

Pip (Domain Specific)

To install only a specific domain of NeMo, use the following commands. Note: It is required to install the above pre-requisites before installing a specific domain of NeMo.

pip install nemo_toolkit['asr']
pip install nemo_toolkit['nlp']
pip install nemo_toolkit['tts']
pip install nemo_toolkit['vision']
pip install nemo_toolkit['multimodal']

Pip from source

Use this installation mode if you want the version from a particular GitHub branch (e.g main).

apt-get update && apt-get install -y libsndfile1 ffmpeg
pip install Cython
python -m pip install git+https://github.com/NVIDIA/NeMo.git@{BRANCH}#egg=nemo_toolkit[all]

From source

Use this installation mode if you are contributing to NeMo.

apt-get update && apt-get install -y libsndfile1 ffmpeg
git clone https://github.com/NVIDIA/NeMo
cd NeMo
./reinstall.sh

If you only want the toolkit without additional conda-based dependencies, you may replace reinstall.sh with pip install -e . when your PWD is the root of the NeMo repository.

Mac computers with Apple silicon

To install NeMo on Mac with Apple M-Series GPU:

  • create a new Conda environment
  • install PyTorch 2.0 or higher
  • run the following code:
# [optional] install mecab using Homebrew, to use sacrebleu for NLP collection
# you can install Homebrew here: https://brew.sh
brew install mecab

# [optional] install pynini using Conda, to use text normalization
conda install -c conda-forge pynini

# install Cython manually
pip install cython

# clone the repo and install in development mode
git clone https://github.com/NVIDIA/NeMo
cd NeMo
pip install 'nemo_toolkit[all]'

# Note that only the ASR toolkit is guaranteed to work on MacBook - so for MacBook use pip install 'nemo_toolkit[asr]'

Windows Computers

One of the options is using Windows Subsystem for Linux (WSL).

To install WSL:

  • In PowerShell, run the following code:
wsl --install
# [note] If you run wsl --install and see the WSL help text, it means WSL is already installed.

Learn more about installing WSL at Microsoft's official documentation.

After Installing your Linux distribution with WSL:
  • Option 1: Open the distribution (Ubuntu by default) from the Start menu and follow the instructions.
  • Option 2: Launch the Terminal application. Download it from Microsoft's Windows Terminal page if not installed.

Next, follow the instructions for Linux systems, as provided above. For example:

apt-get update && apt-get install -y libsndfile1 ffmpeg
git clone https://github.com/NVIDIA/NeMo
cd NeMo
./reinstall.sh

RNNT

Note that RNNT requires numba to be installed from conda.

conda remove numba
pip uninstall numba
conda install -c conda-forge numba

LLM and Multimodal Dependencies

The LLM and Multimodal domains require three additional dependencies: NVIDIA Apex, NVIDIA Transformer Engine, and NVIDIA Megatron Core.

When working with the main branch these dependencies may require a recent commit. The most recent working versions of these dependencies are:

export apex_commit=810ffae374a2b9cb4b5c5e28eaeca7d7998fca0c
export te_commit=bfe21c3d68b0a9951e5716fb520045db53419c5e
export mcore_commit=fbb375d4b5e88ce52f5f7125053068caff47f93f
export nv_pytorch_tag=24.02-py3

When using a released version of NeMo, please refer to the Software Component Versions for the correct versions.

If starting with a base NVIDIA PyTorch container first launch the container:

docker run \
  --gpus all \
  -it \
  --rm \
  --shm-size=16g \
  --ulimit memlock=-1 \
  --ulimit stack=67108864 \
  nvcr.io/nvidia/pytorch:$nv_pytorch_tag

Then install the dependencies:

Apex

NeMo LLM Multimodal Domains require that NVIDIA Apex to be installed. Apex comes installed in the NVIDIA PyTorch container but it's possible that NeMo LLM and Multimodal may need to be updated to a newer version.

To install Apex, run

git clone https://github.com/NVIDIA/apex.git
cd apex
git checkout $apex_commit
pip install . -v --no-build-isolation --disable-pip-version-check --no-cache-dir --config-settings "--build-option=--cpp_ext --cuda_ext --fast_layer_norm --distributed_adam --deprecated_fused_adam --group_norm"

While installing Apex outside of the NVIDIA PyTorch container, it may raise an error if the CUDA version on your system does not match the CUDA version torch was compiled with. This raise can be avoided by commenting it here: https://github.com/NVIDIA/apex/blob/master/setup.py#L32

cuda-nvprof is needed to install Apex. The version should match the CUDA version that you are using:

conda install -c nvidia cuda-nvprof=11.8

packaging is also needed:

pip install packaging

With the latest versions of Apex, the pyproject.toml file in Apex may need to be deleted in order to install locally.

Transformer Engine

The NeMo LLM Multimodal Domains require that NVIDIA Transformer Engine to be installed. Transformer Engine comes installed in the NVIDIA PyTorch container but it's possible that NeMo LLM and Multimodal may need Transformer Engine to be updated to a newer version.

Transformer Engine enables FP8 training on NVIDIA Hopper GPUs and many performance optimizations for transformer-based model training. Documentation for installing Transformer Engine can be found here.

git clone https://github.com/NVIDIA/TransformerEngine.git && \
cd TransformerEngine && \
git checkout $te_commit && \
git submodule init && git submodule update && \
NVTE_FRAMEWORK=pytorch NVTE_WITH_USERBUFFERS=1 MPI_HOME=/usr/local/mpi pip install .

Transformer Engine requires PyTorch to be built with at least CUDA 11.8.

Megatron Core

The NeMo LLM Multimodal Domains require that NVIDIA Megatron Core to be installed. Megatron core is a library for scaling large transfromer base models. NeMo LLM and Multimodal models leverage Megatron Core for model parallelism, transformer architectures, and optimized pytorch datasets.

NeMo LLM and Multimodal may need Megatron Core to be updated to a recent version.

git clone https://github.com/NVIDIA/Megatron-LM.git && \
cd Megatron-LM && \
git checkout $mcore_commit && \
pip install . && \
cd megatron/core/datasets && \
make

NeMo Text Processing

NeMo Text Processing, specifically (Inverse) Text Normalization, is now a separate repository https://github.com/NVIDIA/NeMo-text-processing.

Docker containers

We release NeMo containers alongside NeMo releases. For example, NeMo r1.23.0 comes with container nemo:24.01.speech, you may find more details about released containers in releases page.

To use a pre-built container, please run

docker pull nvcr.io/nvidia/nemo:24.01.speech

To build a nemo container with Dockerfile from a branch, please run

DOCKER_BUILDKIT=1 docker build -f Dockerfile -t nemo:latest .

If you choose to work with the main branch, we recommend using NVIDIA's PyTorch container version 23.10-py3 and then installing from GitHub.

docker run --gpus all -it --rm -v <nemo_github_folder>:/NeMo --shm-size=8g \
-p 8888:8888 -p 6006:6006 --ulimit memlock=-1 --ulimit \
stack=67108864 --device=/dev/snd nvcr.io/nvidia/pytorch:23.10-py3

Examples

Many examples can be found under the "Examples" folder.

Contributing

We welcome community contributions! Please refer to CONTRIBUTING.md for the process.

Publications

We provide an ever-growing list of publications that utilize the NeMo Framework.

If you would like to add your own article to the list, you are welcome to do so via a pull request to this repository's gh-pages-src branch. Please refer to the instructions in the README of that branch.

License

NeMo is released under an Apache 2.0 license.

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A scalable generative AI framework built for researchers and developers working on Large Language Models, Multimodal, and Speech AI (Automatic Speech Recognition and Text-to-Speech)

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