ChatNVIDIA

This will help you getting started with NVIDIA chat models. For detailed documentation of all ChatNVIDIA features and configurations head to the API reference.

Overview

The langchain-nvidia-ai-endpoints package contains LangChain integrations building applications with models on NVIDIA NIM inference microservice. NIM supports models across domains like chat, embedding, and re-ranking models from the community as well as NVIDIA. These models are optimized by NVIDIA to deliver the best performance on NVIDIA accelerated infrastructure and deployed as a NIM, an easy-to-use, prebuilt containers that deploy anywhere using a single command on NVIDIA accelerated infrastructure.

NVIDIA hosted deployments of NIMs are available to test on the NVIDIA API catalog. After testing, NIMs can be exported from NVIDIA’s API catalog using the NVIDIA AI Enterprise license and run on-premises or in the cloud, giving enterprises ownership and full control of their IP and AI application.

NIMs are packaged as container images on a per model basis and are distributed as NGC container images through the NVIDIA NGC Catalog. At their core, NIMs provide easy, consistent, and familiar APIs for running inference on an AI model.

This example goes over how to use LangChain to interact with NVIDIA supported via the ChatNVIDIA class.

For more information on accessing the chat models through this api, check out the ChatNVIDIA documentation.

Integration details

Class	Package	Local	Serializable	JS support	Package downloads	Package latest
ChatNVIDIA	langchain_nvidia_ai_endpoints	✅	beta	❌

Model features

Tool calling	Structured output	JSON mode	Image input	Audio input	Video input	Token-level streaming	Native async	Token usage	Logprobs
✅	✅	❌	✅	❌	❌	✅	❌	❌	❌

Setup

To get started:

1. Create a free account with NVIDIA, which hosts NVIDIA AI Foundation models.

2. Click on your model of choice.

3. Under Input select the Python tab, and click Get API Key. Then click Generate Key.

4. Copy and save the generated key as NVIDIA_API_KEY. From there, you should have access to the endpoints.

Credentials

import getpass
import os

if not os.getenv("NVIDIA_API_KEY"):
    # Note: the API key should start with "nvapi-"
    os.environ["NVIDIA_API_KEY"] = getpass.getpass("Enter your NVIDIA API key: ")

If you want to get automated tracing of your model calls you can also set your LangSmith API key by uncommenting below:

# os.environ["LANGCHAIN_TRACING_V2"] = "true"
# os.environ["LANGCHAIN_API_KEY"] = getpass.getpass("Enter your LangSmith API key: ")

Installation

The LangChain NVIDIA AI Endpoints integration lives in the langchain_nvidia_ai_endpoints package:

%pip install --upgrade --quiet langchain-nvidia-ai-endpoints

Instantiation

Now we can access models in the NVIDIA API Catalog:

## Core LC Chat Interface
from langchain_nvidia_ai_endpoints import ChatNVIDIA

llm = ChatNVIDIA(model="mistralai/mixtral-8x7b-instruct-v0.1")

API Reference:ChatNVIDIA

Invocation

result = llm.invoke("Write a ballad about LangChain.")
print(result.content)

Working with NVIDIA NIMs

When ready to deploy, you can self-host models with NVIDIA NIM—which is included with the NVIDIA AI Enterprise software license—and run them anywhere, giving you ownership of your customizations and full control of your intellectual property (IP) and AI applications.

Learn more about NIMs

from langchain_nvidia_ai_endpoints import ChatNVIDIA

# connect to an embedding NIM running at localhost:8000, specifying a specific model
llm = ChatNVIDIA(base_url="http://localhost:8000/v1", model="meta/llama3-8b-instruct")

API Reference:ChatNVIDIA

Stream, Batch, and Async

These models natively support streaming, and as is the case with all LangChain LLMs they expose a batch method to handle concurrent requests, as well as async methods for invoke, stream, and batch. Below are a few examples.

print(llm.batch(["What's 2*3?", "What's 2*6?"]))
# Or via the async API
# await llm.abatch(["What's 2*3?", "What's 2*6?"])

for chunk in llm.stream("How far can a seagull fly in one day?"):
    # Show the token separations
    print(chunk.content, end="|")

async for chunk in llm.astream(
    "How long does it take for monarch butterflies to migrate?"
):
    print(chunk.content, end="|")

Supported models

Querying available_models will still give you all of the other models offered by your API credentials.

The playground_ prefix is optional.

ChatNVIDIA.get_available_models()
# llm.get_available_models()

Model types

All of these models above are supported and can be accessed via ChatNVIDIA.

Some model types support unique prompting techniques and chat messages. We will review a few important ones below.

To find out more about a specific model, please navigate to the API section of an AI Foundation model as linked here.

General Chat

Models such as meta/llama3-8b-instruct and mistralai/mixtral-8x22b-instruct-v0.1 are good all-around models that you can use for with any LangChain chat messages. Example below.

from langchain_core.output_parsers import StrOutputParser
from langchain_core.prompts import ChatPromptTemplate
from langchain_nvidia_ai_endpoints import ChatNVIDIA

prompt = ChatPromptTemplate.from_messages(
    [("system", "You are a helpful AI assistant named Fred."), ("user", "{input}")]
)
chain = prompt | ChatNVIDIA(model="meta/llama3-8b-instruct") | StrOutputParser()

for txt in chain.stream({"input": "What's your name?"}):
    print(txt, end="")

API Reference:StrOutputParser | ChatPromptTemplate | ChatNVIDIA

Code Generation

These models accept the same arguments and input structure as regular chat models, but they tend to perform better on code-genreation and structured code tasks. An example of this is meta/codellama-70b.

prompt = ChatPromptTemplate.from_messages(
    [
        (
            "system",
            "You are an expert coding AI. Respond only in valid python; no narration whatsoever.",
        ),
        ("user", "{input}"),
    ]
)
chain = prompt | ChatNVIDIA(model="meta/codellama-70b") | StrOutputParser()

for txt in chain.stream({"input": "How do I solve this fizz buzz problem?"}):
    print(txt, end="")

Multimodal

NVIDIA also supports multimodal inputs, meaning you can provide both images and text for the model to reason over. An example model supporting multimodal inputs is nvidia/neva-22b.

Below is an example use:

import IPython
import requests

image_url = "https://www.nvidia.com/content/dam/en-zz/Solutions/research/ai-playground/nvidia-picasso-3c33-p@2x.jpg"  ## Large Image
image_content = requests.get(image_url).content

IPython.display.Image(image_content)

from langchain_nvidia_ai_endpoints import ChatNVIDIA

llm = ChatNVIDIA(model="nvidia/neva-22b")

API Reference:ChatNVIDIA

Passing an image as a URL

from langchain_core.messages import HumanMessage

llm.invoke(
    [
        HumanMessage(
            content=[
                {"type": "text", "text": "Describe this image:"},
                {"type": "image_url", "image_url": {"url": image_url}},
            ]
        )
    ]
)

API Reference:HumanMessage

Passing an image as a base64 encoded string

At the moment, some extra processing happens client-side to support larger images like the one above. But for smaller images (and to better illustrate the process going on under the hood), we can directly pass in the image as shown below:

import IPython
import requests

image_url = "https://picsum.photos/seed/kitten/300/200"
image_content = requests.get(image_url).content

IPython.display.Image(image_content)

import base64

from langchain_core.messages import HumanMessage

## Works for simpler images. For larger images, see actual implementation
b64_string = base64.b64encode(image_content).decode("utf-8")

llm.invoke(
    [
        HumanMessage(
            content=[
                {"type": "text", "text": "Describe this image:"},
                {
                    "type": "image_url",
                    "image_url": {"url": f"data:image/png;base64,{b64_string}"},
                },
            ]
        )
    ]
)

API Reference:HumanMessage

Directly within the string

The NVIDIA API uniquely accepts images as base64 images inlined within <img/> HTML tags. While this isn't interoperable with other LLMs, you can directly prompt the model accordingly.

base64_with_mime_type = f"data:image/png;base64,{b64_string}"
llm.invoke(f'What\'s in this image?\n<img src="{base64_with_mime_type}" />')

Example usage within a RunnableWithMessageHistory

Like any other integration, ChatNVIDIA is fine to support chat utilities like RunnableWithMessageHistory which is analogous to using ConversationChain. Below, we show the LangChain RunnableWithMessageHistory example applied to the mistralai/mixtral-8x22b-instruct-v0.1 model.

%pip install --upgrade --quiet langchain

from langchain_core.chat_history import InMemoryChatMessageHistory
from langchain_core.runnables.history import RunnableWithMessageHistory

# store is a dictionary that maps session IDs to their corresponding chat histories.
store = {}  # memory is maintained outside the chain


# A function that returns the chat history for a given session ID.
def get_session_history(session_id: str) -> InMemoryChatMessageHistory:
    if session_id not in store:
        store[session_id] = InMemoryChatMessageHistory()
    return store[session_id]


chat = ChatNVIDIA(
    model="mistralai/mixtral-8x22b-instruct-v0.1",
    temperature=0.1,
    max_tokens=100,
    top_p=1.0,
)

#  Define a RunnableConfig object, with a `configurable` key. session_id determines thread
config = {"configurable": {"session_id": "1"}}

conversation = RunnableWithMessageHistory(
    chat,
    get_session_history,
)

conversation.invoke(
    "Hi I'm Srijan Dubey.",  # input or query
    config=config,
)

API Reference:InMemoryChatMessageHistory | RunnableWithMessageHistory

conversation.invoke(
    "I'm doing well! Just having a conversation with an AI.",
    config=config,
)

conversation.invoke(
    "Tell me about yourself.",
    config=config,
)

Tool calling

Starting in v0.2, ChatNVIDIA supports bind_tools.

ChatNVIDIA provides integration with the variety of models on build.nvidia.com as well as local NIMs. Not all these models are trained for tool calling. Be sure to select a model that does have tool calling for your experimention and applications.

You can get a list of models that are known to support tool calling with,

tool_models = [
    model for model in ChatNVIDIA.get_available_models() if model.supports_tools
]
tool_models

With a tool capable model,

from langchain_core.pydantic_v1 import Field
from langchain_core.tools import tool


@tool
def get_current_weather(
    location: str = Field(..., description="The location to get the weather for."),
):
    """Get the current weather for a location."""
    ...


llm = ChatNVIDIA(model=tool_models[0].id).bind_tools(tools=[get_current_weather])
response = llm.invoke("What is the weather in Boston?")
response.tool_calls

API Reference:tool

See How to use chat models to call tools for additional examples.

Chaining

We can chain our model with a prompt template like so:

from langchain_core.prompts import ChatPromptTemplate

prompt = ChatPromptTemplate(
    [
        (
            "system",
            "You are a helpful assistant that translates {input_language} to {output_language}.",
        ),
        ("human", "{input}"),
    ]
)

chain = prompt | llm
chain.invoke(
    {
        "input_language": "English",
        "output_language": "German",
        "input": "I love programming.",
    }
)

API Reference:ChatPromptTemplate

API reference

For detailed documentation of all ChatNVIDIA features and configurations head to the API reference: https://python.langchain.com/v0.2/api_reference/nvidia_ai_endpoints/chat_models/langchain_nvidia_ai_endpoints.chat_models.ChatNVIDIA.html

Related

• Chat model conceptual guide
• Chat model how-to guides