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Tutorial: Use Azure Cache for Redis as a semantic cache

In this tutorial, you use Azure Cache for Redis as a semantic cache with an AI-based large language model (LLM). You use Azure OpenAI Service to generate LLM responses to queries and cache those responses using Azure Cache for Redis, delivering faster responses and lowering costs.

Because Azure Cache for Redis offers built-in vector search capability, you can also perform semantic caching. You can return cached responses for identical queries and also for queries that are similar in meaning, even if the text isn't the same.

In this tutorial, you learn how to:

  • Create an Azure Cache for Redis instance configured for semantic caching
  • Use LangChain other popular Python libraries.
  • Use Azure OpenAI service to generate text from AI models and cache results.
  • See the performance gains from using caching with LLMs.

Important

This tutorial walks you through building a Jupyter Notebook. You can follow this tutorial with a Python code file (.py) and get similar results, but you need to add all of the code blocks in this tutorial into the .py file and execute once to see results. In other words, Jupyter Notebooks provides intermediate results as you execute cells, but this is not behavior you should expect when working in a Python code file.

Important

If you would like to follow along in a completed Jupyter notebook instead, download the Jupyter notebook file named semanticcache.ipynb and save it into the new semanticcache folder.

Prerequisites

Create an Azure Cache for Redis instance

Follow the Quickstart: Create a Redis Enterprise cache guide. On the Advanced page, make sure that you added the RediSearch module and chose the Enterprise Cluster Policy. All other settings can match the default described in the quickstart.

It takes a few minutes for the cache to create. You can move on to the next step in the meantime.

Screenshot showing the Enterprise tier Basics tab filled out.

Set up your development environment

  1. Create a folder on your local computer named semanticcache in the location where you typically save your projects.

  2. Create a new python file (tutorial.py) or Jupyter notebook (tutorial.ipynb) in the folder.

  3. Install the required Python packages:

    pip install openai langchain redis tiktoken
    

Create Azure OpenAI models

Make sure you have two models deployed to your Azure OpenAI resource:

  • An LLM that provides text responses. We use the GPT-3.5-turbo-instruct model for this tutorial.

  • An embeddings model that converts queries into vectors to allow them to be compared to past queries. We use the text-embedding-ada-002 (Version 2) model for this tutorial.

See Deploy a model for more detailed instructions. Record the name you chose for each model deployment.

Import libraries and set up connection information

To successfully make a call against Azure OpenAI, you need an endpoint and a key. You also need an endpoint and a key to connect to Azure Cache for Redis.

  1. Go to your Azure OpenAI resource in the Azure portal.

  2. Locate Endpoint and Keys in the Resource Management section of your Azure OpenAI resource. Copy your endpoint and access key because you need both for authenticating your API calls. An example endpoint is: https://docs-test-001.openai.azure.com. You can use either KEY1 or KEY2.

  3. Go to the Overview page of your Azure Cache for Redis resource in the Azure portal. Copy your endpoint.

  4. Locate Access keys in the Settings section. Copy your access key. You can use either Primary or Secondary.

  5. Add the following code to a new code cell:

       # Code cell 2
    
    import openai
    import redis
    import os
    import langchain
    from langchain.llms import AzureOpenAI
    from langchain.embeddings import AzureOpenAIEmbeddings
    from langchain.globals import set_llm_cache
    from langchain.cache import RedisSemanticCache
    import time
    
    
    AZURE_ENDPOINT=<your-openai-endpoint>
    API_KEY=<your-openai-key>
    API_VERSION="2023-05-15"
    LLM_DEPLOYMENT_NAME=<your-llm-model-name>
    LLM_MODEL_NAME="gpt-35-turbo-instruct"
    EMBEDDINGS_DEPLOYMENT_NAME=<your-embeddings-model-name>
    EMBEDDINGS_MODEL_NAME="text-embedding-ada-002"
    
    REDIS_ENDPOINT = <your-redis-endpoint>
    REDIS_PASSWORD = <your-redis-password>
    
    
  6. Update the value of API_KEY and RESOURCE_ENDPOINT with the key and endpoint values from your Azure OpenAI deployment.

  7. Set LLM_DEPLOYMENT_NAME and EMBEDDINGS_DEPLOYMENT_NAME to the name of your two models deployed in Azure OpenAI Service.

  8. Update REDIS_ENDPOINT and REDIS_PASSWORD with the endpoint and key value from your Azure Cache for Redis instance.

    Important

    We strongly recommend using environmental variables or a secret manager like Azure Key Vault to pass in the API key, endpoint, and deployment name information. These variables are set in plaintext here for the sake of simplicity.

  9. Execute code cell 2.

Initialize AI models

Next, you initialize the LLM and embeddings models

  1. Add the following code to a new code cell:

       # Code cell 3
    
    llm = AzureOpenAI(
        deployment_name=LLM_DEPLOYMENT_NAME,
        model_name="gpt-35-turbo-instruct",
        openai_api_key=API_KEY,
        azure_endpoint=AZURE_ENDPOINT,
        openai_api_version=API_VERSION,
    )
    embeddings = AzureOpenAIEmbeddings(
        azure_deployment=EMBEDDINGS_DEPLOYMENT_NAME,
        model="text-embedding-ada-002",
        openai_api_key=API_KEY,
        azure_endpoint=AZURE_ENDPOINT,
        openai_api_version=API_VERSION
    )
    
  2. Execute code cell 3.

Set up Redis as a semantic cache

Next, specify Redis as a semantic cache for your LLM.

  1. Add the following code to a new code cell:

       # Code cell 4
    
    redis_url = "rediss://:" + REDIS_PASSWORD + "@"+ REDIS_ENDPOINT
    set_llm_cache(RedisSemanticCache(redis_url = redis_url, embedding=embeddings, score_threshold=0.05))
    

    Important

    The value of the score_threshold parameter determines how similar two queries need to be in order to return a cached result. The lower the number, the more similar the queries need to be. You can play around with this value to fine-tune it to your application.

  2. Execute code cell 4.

Query and get responses from the LLM

Finally, query the LLM to get an AI generated response. If you're using a Jupyter notebook, you can add %%time at the top of the cell to output the amount of time taken to execute the code.

  1. Add the following code to a new code cell and execute it:

    # Code cell 5
    %%time
    response = llm("Please write a poem about cute kittens.")
    print(response)
    

    You should see an output and output similar to this:

    Fluffy balls of fur,
    With eyes so bright and pure,
    Kittens are a true delight,
    Bringing joy into our sight.
    
    With tiny paws and playful hearts,
    They chase and pounce, a work of art,
    Their innocence and curiosity,
    Fills our hearts with such serenity.
    
    Their soft meows and gentle purrs,
    Are like music to our ears,
    They curl up in our laps,
    And take the stress away in a snap.
    
    Their whiskers twitch, they're always ready,
    To explore and be adventurous and steady,
    With their tails held high,
    They're a sight to make us sigh.
    
    Their tiny faces, oh so sweet,
    With button noses and paw-sized feet,
    They're the epitome of cuteness,
    ...
    Cute kittens, a true blessing,
    In our hearts, they'll always be reigning.
    CPU times: total: 0 ns
    Wall time: 2.67 s
    

    The Wall time shows a value of 2.67 seconds. That's how much real-world time it took to query the LLM and for the LLM to generate a response.

  2. Execute cell 5 again. You should see the exact same output, but with a smaller wall time:

    Fluffy balls of fur,
    With eyes so bright and pure,
    Kittens are a true delight,
    Bringing joy into our sight.
    
    With tiny paws and playful hearts,
    They chase and pounce, a work of art,
    Their innocence and curiosity,
    Fills our hearts with such serenity.
    
    Their soft meows and gentle purrs,
    Are like music to our ears,
    They curl up in our laps,
    And take the stress away in a snap.
    
    Their whiskers twitch, they're always ready,
    To explore and be adventurous and steady,
    With their tails held high,
    They're a sight to make us sigh.
    
    Their tiny faces, oh so sweet,
    With button noses and paw-sized feet,
    They're the epitome of cuteness,
    ...
    Cute kittens, a true blessing,
    In our hearts, they'll always be reigning.
    CPU times: total: 0 ns
    Wall time: 575 ms
    

    The wall time appears to shorten by a factor of five--all the way down to 575 milliseconds.

  3. Change the query from Please write a poem about cute kittens to Write a poem about cute kittens and run cell 5 again. You should see the exact same output and a lower wall time than the original query. Even though the query changed, the semantic meaning of the query remained the same so the same cached output was returned. This is the advantage of semantic caching!

Change the similarity threshold

  1. Try running a similar query with a different meaning, like Please write a poem about cute puppies. Notice that the cached result is returned here as well. The semantic meaning of the word puppies is close enough to the word kittens that the cached result is returned.

  2. The similarity threshold can be modified to determine when the semantic cache should return a cached result and when it should return a new output from the LLM. In code cell 4, change score_threshold from 0.05 to 0.01:

    # Code cell 4
    
    redis_url = "rediss://:" + REDIS_PASSWORD + "@"+ REDIS_ENDPOINT
    set_llm_cache(RedisSemanticCache(redis_url = redis_url, embedding=embeddings, score_threshold=0.01))
    
  3. Try the query Please write a poem about cute puppies again. You should receive a new output that's specific to puppies:

    Oh, little balls of fluff and fur
    With wagging tails and tiny paws
    Puppies, oh puppies, so pure
    The epitome of cuteness, no flaws
    
    With big round eyes that melt our hearts
    And floppy ears that bounce with glee
    Their playful antics, like works of art
    They bring joy to all they see
    
    Their soft, warm bodies, so cuddly
    As they curl up in our laps
    Their gentle kisses, so lovingly
    Like tiny, wet, puppy taps
    
    Their clumsy steps and wobbly walks
    As they explore the world anew
    Their curiosity, like a ticking clock
    Always eager to learn and pursue
    
    Their little barks and yips so sweet
    Fill our days with endless delight
    Their unconditional love, so complete
    ...
    For they bring us love and laughter, year after year
    Our cute little pups, in every way.
    CPU times: total: 15.6 ms
    Wall time: 4.3 s
    

    You likely need to fine-tune the similarity threshold based on your application to ensure that the right sensitivity is used when determining which queries to cache.

Clean up resources

If you want to continue to use the resources you created in this article, keep the resource group.

Otherwise, if you're finished with the resources, you can delete the Azure resource group that you created to avoid charges.

Important

Deleting a resource group is irreversible. When you delete a resource group, all the resources in it are permanently deleted. Make sure that you do not accidentally delete the wrong resource group or resources. If you created the resources inside an existing resource group that contains resources you want to keep, you can delete each resource individually instead of deleting the resource group.

To delete a resource group

  1. Sign in to the Azure portal, and then select Resource groups.

  2. Select the resource group you want to delete.

    If there are many resource groups, use the Filter for any field... box, type the name of your resource group you created for this article. Select the resource group in the results list.

    Screenshot showing a list of resource groups to delete in the working pane.

  3. Select Delete resource group.

  4. You're asked to confirm the deletion of the resource group. Type the name of your resource group to confirm, and then select Delete.

    Screenshot showing a form that requires the resource name to confirm deletion.

After a few moments, the resource group and all of its resources are deleted.