langchain/libs/partners/nvidia-ai-endpoints
William FH c5296fd42c
[Documentation] Updates to NVIDIA Playground/Foundation Model naming.… (#14770)
…  (#14723)

- **Description:** Minor updates per marketing requests. Namely, name
decisions (AI Foundation Models / AI Playground)
  - **Tag maintainer:** @hinthornw 

Do want to pass around the PR for a bit and ask a few more marketing
questions before merge, but just want to make sure I'm not working in a
vacuum. No major changes to code functionality intended; the PR should
be for documentation and only minor tweaks.

Note: QA model is a bit borked across staging/prod right now. Relevant
teams have been informed and are looking into it, and I'm placeholdered
the response to that of a working version in the notebook.

Co-authored-by: Vadim Kudlay <32310964+VKudlay@users.noreply.github.com>
2023-12-15 12:21:59 -08:00
..
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langchain-nvidia-ai-endpoints

The langchain-nvidia-ai-endpoints package contains LangChain integrations for chat models and embeddings powered by the NVIDIA AI Foundation Model playground environment.

NVIDIA AI Foundation Endpoints give users easy access to hosted endpoints for generative AI models like Llama-2, SteerLM, Mistral, etc. Using the API, you can query live endpoints available on the NVIDIA GPU Cloud (NGC) to get quick results from a DGX-hosted cloud compute environment. All models are source-accessible and can be deployed on your own compute cluster.

Below is an example on how to use some common functionality surrounding text-generative and embedding models

Installation

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

Setup

To get started:

  1. Create a free account with the NVIDIA GPU Cloud service, which hosts AI solution catalogs, containers, models, etc.
  2. Navigate to Catalog > AI Foundation Models > (Model with API endpoint).
  3. Select the API option and click Generate Key.
  4. Save the generated key as NVIDIA_API_KEY. From there, you should have access to the endpoints.
import getpass
import os

if not os.environ.get("NVIDIA_API_KEY", "").startswith("nvapi-"):
    nvidia_api_key = getpass.getpass("Enter your NVIDIA AIPLAY API key: ")
    assert nvidia_api_key.startswith("nvapi-"), f"{nvidia_api_key[:5]}... is not a valid key"
    os.environ["NVIDIA_API_KEY"] = nvidia_api_key
## Core LC Chat Interface
from langchain_nvidia_ai_endpoints import ChatNVIDIA

llm = ChatNVIDIA(model="mixtral_8x7b")
result = llm.invoke("Write a ballad about LangChain.")
print(result.content)

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.

list(llm.available_models)


# ['playground_llama2_13b',
# 'playground_llama2_code_13b',
# 'playground_clip',
# 'playground_fuyu_8b',
# 'playground_mistral_7b',
# 'playground_nvolveqa_40k',
# 'playground_yi_34b',
# 'playground_nemotron_steerlm_8b',
# 'playground_nv_llama2_rlhf_70b',
# 'playground_llama2_code_34b',
# 'playground_mixtral_8x7b',
# 'playground_neva_22b',
# 'playground_steerlm_llama_70b',
# 'playground_nemotron_qa_8b',
# 'playground_sdxl']

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 llama2_13b and mixtral_8x7b are good all-around models that you can use for with any LangChain chat messages. Example below.

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

prompt = ChatPromptTemplate.from_messages(
    [
        ("system", "You are a helpful AI assistant named Fred."),
        ("user", "{input}")
    ]
)
chain = (
    prompt
    | ChatNVIDIA(model="llama2_13b")
    | StrOutputParser()
)

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

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 llama2_code_13b.

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="llama2_code_13b")
    | StrOutputParser()
)

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

Steering LLMs

SteerLM-optimized models supports "dynamic steering" of model outputs at inference time.

This lets you "control" the complexity, verbosity, and creativity of the model via integer labels on a scale from 0 to 9. Under the hood, these are passed as a special type of assistant message to the model.

The "steer" models support this type of input, such as steerlm_llama_70b

from langchain_nvidia_ai_endpoints import ChatNVIDIA

llm = ChatNVIDIA(model="steerlm_llama_70b")
# Try making it uncreative and not verbose
complex_result = llm.invoke(
    "What's a PB&J?",
    labels={"creativity": 0, "complexity": 3, "verbosity": 0}
)
print("Un-creative\n")
print(complex_result.content)

# Try making it very creative and verbose
print("\n\nCreative\n")
creative_result = llm.invoke(
    "What's a PB&J?",
    labels={"creativity": 9, "complexity": 3, "verbosity": 9}
)
print(creative_result.content)

Use within LCEL

The labels are passed as invocation params. You can bind these to the LLM using the bind method on the LLM to include it within a declarative, functional chain. Below is an example.

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

prompt = ChatPromptTemplate.from_messages(
    [
        ("system", "You are a helpful AI assistant named Fred."),
        ("user", "{input}")
    ]
)
chain = (
    prompt
    | ChatNVIDIA(model="steerlm_llama_70b").bind(labels={"creativity": 9, "complexity": 0, "verbosity": 9})
    | StrOutputParser()
)

for txt in chain.stream({"input": "Why is a PB&J?"}):
    print(txt, end="")

Multimodal

NVIDIA also supports multimodal inputs, meaning you can provide both images and text for the model to reason over.

These models also accept labels, similar to the Steering LLMs above. In addition to creativity, complexity, and verbosity, these models support a quality toggle.

An example model supporting multimodal inputs is playground_neva_22b.

These models accept LangChain's standard image formats. Below are examples.

import requests

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

Initialize the model like so:

from langchain_nvidia_ai_endpoints import ChatNVIDIA

llm = ChatNVIDIA(model="playground_neva_22b")

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}},
        ])
    ])
### You can specify the labels for steering here as well.  You can try setting a low verbosity, for instance

from langchain_core.messages import HumanMessage

llm.invoke(
    [
        HumanMessage(content=[
            {"type": "text", "text": "Describe this image:"},
            {"type": "image_url", "image_url": {"url": image_url}},
        ])
    ],
    labels={
        "creativity": 0,
        "quality": 9,
        "complexity": 0,
        "verbosity": 0
    }
)

Passing an image as a base64 encoded string

import base64
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}"}},
        ])
    ])

Directly within the string

The NVIDIA API uniquely accepts images as base64 images inlined within 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}" />'
)

RAG: Context models

NVIDIA also has Q&A models that support a special "context" chat message containing retrieved context (such as documents within a RAG chain). This is useful to avoid prompt-injecting the model.

Note: Only "user" (human) and "context" chat messages are supported for these models, not system or AI messages useful in conversational flows.

The _qa_ models like nemotron_qa_8b support this.

from langchain_nvidia_ai_endpoints import ChatNVIDIA
from langchain_core.prompts import ChatPromptTemplate
from langchain_core.output_parsers import StrOutputParser
from langchain_core.messages import ChatMessage
prompt = ChatPromptTemplate.from_messages(
    [
        ChatMessage(role="context", content="Parrots and Cats have signed the peace accord."),
        ("user", "{input}")
    ]
)
llm = ChatNVIDIA(model="nemotron_qa_8b")
chain = (
    prompt
    | llm
    | StrOutputParser()
)
chain.invoke({"input": "What was signed?"})

Embeddings

You can also connect to embeddings models through this package. Below is an example:

from langchain_nvidia_ai_endpoints import NVIDIAEmbeddings

embedder = NVIDIAEmbeddings(model="nvolveqa_40k")
embedder.embed_query("What's the temperature today?")
embedder.embed_documents([
    "The temperature is 42 degrees.",
    "Class is dismissed at 9 PM."
])

By default the embedding model will use the "passage" type for documents and "query" type for queries, but you can fix this on the instance.

query_embedder = NVIDIAEmbeddings(model="nvolveqa_40k", model_type="query")
doc_embeddder = NVIDIAEmbeddings(model="nvolveqa_40k", model_type="passage")