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# What does this PR do? Fix the NVIDIA inference docs by updating API methods, model IDs, and embedding example. ## Test Plan N/A
141 lines
6.7 KiB
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141 lines
6.7 KiB
Markdown
---
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orphan: true
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---
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# NVIDIA Distribution
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The `llamastack/distribution-{{ name }}` distribution consists of the following provider configurations.
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{{ providers_table }}
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{% if run_config_env_vars %}
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### Environment Variables
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The following environment variables can be configured:
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{% for var, (default_value, description) in run_config_env_vars.items() %}
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- `{{ var }}`: {{ description }} (default: `{{ default_value }}`)
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{% endfor %}
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{% endif %}
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{% if default_models %}
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### Models
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The following models are available by default:
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{% for model in default_models %}
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- `{{ model.model_id }} {{ model.doc_string }}`
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{% endfor %}
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{% endif %}
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## Prerequisites
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### NVIDIA API Keys
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Make sure you have access to a NVIDIA API Key. You can get one by visiting [https://build.nvidia.com/](https://build.nvidia.com/). Use this key for the `NVIDIA_API_KEY` environment variable.
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### Deploy NeMo Microservices Platform
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The NVIDIA NeMo microservices platform supports end-to-end microservice deployment of a complete AI flywheel on your Kubernetes cluster through the NeMo Microservices Helm Chart. Please reference the [NVIDIA NeMo Microservices documentation](https://docs.nvidia.com/nemo/microservices/latest/about/index.html) for platform prerequisites and instructions to install and deploy the platform.
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## Supported Services
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Each Llama Stack API corresponds to a specific NeMo microservice. The core microservices (Customizer, Evaluator, Guardrails) are exposed by the same endpoint. The platform components (Data Store) are each exposed by separate endpoints.
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### Inference: NVIDIA NIM
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NVIDIA NIM is used for running inference with registered models. There are two ways to access NVIDIA NIMs:
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1. Hosted (default): Preview APIs hosted at https://integrate.api.nvidia.com (Requires an API key)
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2. Self-hosted: NVIDIA NIMs that run on your own infrastructure.
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The deployed platform includes the NIM Proxy microservice, which is the service that provides to access your NIMs (for example, to run inference on a model). Set the `NVIDIA_BASE_URL` environment variable to use your NVIDIA NIM Proxy deployment.
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### Datasetio API: NeMo Data Store
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The NeMo Data Store microservice serves as the default file storage solution for the NeMo microservices platform. It exposts APIs compatible with the Hugging Face Hub client (`HfApi`), so you can use the client to interact with Data Store. The `NVIDIA_DATASETS_URL` environment variable should point to your NeMo Data Store endpoint.
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See the {repopath}`NVIDIA Datasetio docs::llama_stack/providers/remote/datasetio/nvidia/README.md` for supported features and example usage.
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### Eval API: NeMo Evaluator
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The NeMo Evaluator microservice supports evaluation of LLMs. Launching an Evaluation job with NeMo Evaluator requires an Evaluation Config (an object that contains metadata needed by the job). A Llama Stack Benchmark maps to an Evaluation Config, so registering a Benchmark creates an Evaluation Config in NeMo Evaluator. The `NVIDIA_EVALUATOR_URL` environment variable should point to your NeMo Microservices endpoint.
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See the {repopath}`NVIDIA Eval docs::llama_stack/providers/remote/eval/nvidia/README.md` for supported features and example usage.
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### Post-Training API: NeMo Customizer
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The NeMo Customizer microservice supports fine-tuning models. You can reference {repopath}`this list of supported models::llama_stack/providers/remote/post_training/nvidia/models.py` that can be fine-tuned using Llama Stack. The `NVIDIA_CUSTOMIZER_URL` environment variable should point to your NeMo Microservices endpoint.
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See the {repopath}`NVIDIA Post-Training docs::llama_stack/providers/remote/post_training/nvidia/README.md` for supported features and example usage.
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### Safety API: NeMo Guardrails
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The NeMo Guardrails microservice sits between your application and the LLM, and adds checks and content moderation to a model. The `GUARDRAILS_SERVICE_URL` environment variable should point to your NeMo Microservices endpoint.
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See the {repopath}`NVIDIA Safety docs::llama_stack/providers/remote/safety/nvidia/README.md` for supported features and example usage.
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## Deploying models
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In order to use a registered model with the Llama Stack APIs, ensure the corresponding NIM is deployed to your environment. For example, you can use the NIM Proxy microservice to deploy `meta/llama-3.2-1b-instruct`.
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Note: For improved inference speeds, we need to use NIM with `fast_outlines` guided decoding system (specified in the request body). This is the default if you deployed the platform with the NeMo Microservices Helm Chart.
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```sh
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# URL to NeMo NIM Proxy service
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export NEMO_URL="http://nemo.test"
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curl --location "$NEMO_URL/v1/deployment/model-deployments" \
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-H 'accept: application/json' \
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-H 'Content-Type: application/json' \
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-d '{
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"name": "llama-3.2-1b-instruct",
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"namespace": "meta",
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"config": {
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"model": "meta/llama-3.2-1b-instruct",
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"nim_deployment": {
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"image_name": "nvcr.io/nim/meta/llama-3.2-1b-instruct",
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"image_tag": "1.8.3",
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"pvc_size": "25Gi",
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"gpu": 1,
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"additional_envs": {
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"NIM_GUIDED_DECODING_BACKEND": "fast_outlines"
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}
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}
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}
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}'
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```
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This NIM deployment should take approximately 10 minutes to go live. [See the docs](https://docs.nvidia.com/nemo/microservices/latest/get-started/tutorials/deploy-nims.html) for more information on how to deploy a NIM and verify it's available for inference.
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You can also remove a deployed NIM to free up GPU resources, if needed.
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```sh
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export NEMO_URL="http://nemo.test"
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curl -X DELETE "$NEMO_URL/v1/deployment/model-deployments/meta/llama-3.1-8b-instruct"
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```
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## Running Llama Stack with NVIDIA
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You can do this via venv (build code), or Docker which has a pre-built image.
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### Via Docker
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This method allows you to get started quickly without having to build the distribution code.
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```bash
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LLAMA_STACK_PORT=8321
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docker run \
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-it \
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--pull always \
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-p $LLAMA_STACK_PORT:$LLAMA_STACK_PORT \
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-v ./run.yaml:/root/my-run.yaml \
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llamastack/distribution-{{ name }} \
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--config /root/my-run.yaml \
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--port $LLAMA_STACK_PORT \
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--env NVIDIA_API_KEY=$NVIDIA_API_KEY
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```
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### Via venv
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If you've set up your local development environment, you can also build the image using your local virtual environment.
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```bash
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INFERENCE_MODEL=meta-llama/Llama-3.1-8B-Instruct
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llama stack build --distro nvidia --image-type venv
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llama stack run ./run.yaml \
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--port 8321 \
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--env NVIDIA_API_KEY=$NVIDIA_API_KEY \
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--env INFERENCE_MODEL=$INFERENCE_MODEL
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```
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## Example Notebooks
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For examples of how to use the NVIDIA Distribution to run inference, fine-tune, evaluate, and run safety checks on your LLMs, you can reference the example notebooks in {repopath}`docs/notebooks/nvidia`.
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