Caching - In-Memory, Redis, s3, Redis Semantic Cache, Disk

See Code

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• For OpenAI/Anthropic Prompt Caching, go here

Initialize Cache - In Memory, Redis, s3 Bucket, Redis Semantic, Disk Cache, Qdrant Semantic

redis-cache

Install redis

pip install redis

For the hosted version you can setup your own Redis DB here: https://app.redislabs.com/

import litellm
from litellm import completion
from litellm.caching.caching import Cache

litellm.cache = Cache(type="redis", host=<host>, port=<port>, password=<password>)

# Make completion calls
response1 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}]
)
response2 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}]
)

# response1 == response2, response 1 is cached

s3-cache

Install boto3

pip install boto3

Set AWS environment variables

AWS_ACCESS_KEY_ID = "AKI*******"
AWS_SECRET_ACCESS_KEY = "WOl*****"

import litellm
from litellm import completion
from litellm.caching.caching import Cache

# pass s3-bucket name
litellm.cache = Cache(type="s3", s3_bucket_name="cache-bucket-litellm", s3_region_name="us-west-2")

# Make completion calls
response1 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}]
)
response2 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}]
)

# response1 == response2, response 1 is cached

redis-semantic cache

Install redis

pip install redisvl==0.0.7

For the hosted version you can setup your own Redis DB here: https://app.redislabs.com/

import litellm
from litellm import completion
from litellm.caching.caching import Cache

random_number = random.randint(
    1, 100000
)  # add a random number to ensure it's always adding / reading from cache

print("testing semantic caching")
litellm.cache = Cache(
    type="redis-semantic",
    host=os.environ["REDIS_HOST"],
    port=os.environ["REDIS_PORT"],
    password=os.environ["REDIS_PASSWORD"],
    similarity_threshold=0.8, # similarity threshold for cache hits, 0 == no similarity, 1 = exact matches, 0.5 == 50% similarity
    redis_semantic_cache_embedding_model="text-embedding-ada-002", # this model is passed to litellm.embedding(), any litellm.embedding() model is supported here
)
response1 = completion(
    model="gpt-3.5-turbo",
    messages=[
        {
            "role": "user",
            "content": f"write a one sentence poem about: {random_number}",
        }
    ],
    max_tokens=20,
)
print(f"response1: {response1}")

random_number = random.randint(1, 100000)

response2 = completion(
    model="gpt-3.5-turbo",
    messages=[
        {
            "role": "user",
            "content": f"write a one sentence poem about: {random_number}",
        }
    ],
    max_tokens=20,
)
print(f"response2: {response1}")
assert response1.id == response2.id
# response1 == response2, response 1 is cached

qdrant-semantic cache

You can set up your own cloud Qdrant cluster by following this: https://qdrant.tech/documentation/quickstart-cloud/

To set up a Qdrant cluster locally follow: https://qdrant.tech/documentation/quickstart/

import litellm
from litellm import completion
from litellm.caching.caching import Cache

random_number = random.randint(
    1, 100000
)  # add a random number to ensure it's always adding / reading from cache

print("testing semantic caching")
litellm.cache = Cache(
    type="qdrant-semantic",
    qdrant_api_base=os.environ["QDRANT_API_BASE"], 
    qdrant_api_key=os.environ["QDRANT_API_KEY"],
    qdrant_collection_name="your_collection_name", # any name of your collection
    similarity_threshold=0.7, # similarity threshold for cache hits, 0 == no similarity, 1 = exact matches, 0.5 == 50% similarity
    qdrant_quantization_config ="binary", # can be one of 'binary', 'product' or 'scalar' quantizations that is supported by qdrant
    qdrant_semantic_cache_embedding_model="text-embedding-ada-002", # this model is passed to litellm.embedding(), any litellm.embedding() model is supported here
)

response1 = completion(
    model="gpt-3.5-turbo",
    messages=[
        {
            "role": "user",
            "content": f"write a one sentence poem about: {random_number}",
        }
    ],
    max_tokens=20,
)
print(f"response1: {response1}")

random_number = random.randint(1, 100000)

response2 = completion(
    model="gpt-3.5-turbo",
    messages=[
        {
            "role": "user",
            "content": f"write a one sentence poem about: {random_number}",
        }
    ],
    max_tokens=20,
)
print(f"response2: {response2}")
assert response1.id == response2.id
# response1 == response2, response 1 is cached

in memory cache

Quick Start

import litellm
from litellm import completion
from litellm.caching.caching import Cache
litellm.cache = Cache()

# Make completion calls
response1 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}],
    caching=True
)
response2 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}],
    caching=True
)

# response1 == response2, response 1 is cached

disk cache

Quick Start

Install diskcache:

pip install diskcache

Then you can use the disk cache as follows.

import litellm
from litellm import completion
from litellm.caching.caching import Cache
litellm.cache = Cache(type="disk")

# Make completion calls
response1 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}],
    caching=True
)
response2 = completion(
    model="gpt-3.5-turbo", 
    messages=[{"role": "user", "content": "Tell me a joke."}],
    caching=True
)

# response1 == response2, response 1 is cached

If you run the code two times, response1 will use the cache from the first run that was stored in a cache file.

Switch Cache On / Off Per LiteLLM Call

LiteLLM supports 4 cache-controls:

• no-cache: Optional(bool) When True, Will not return a cached response, but instead call the actual endpoint.
• no-store: Optional(bool) When True, Will not cache the response.
• ttl: Optional(int) - Will cache the response for the user-defined amount of time (in seconds).
• s-maxage: Optional(int) Will only accept cached responses that are within user-defined range (in seconds).

Let us know if you need more

No-Cache

Example usage no-cache - When True, Will not return a cached response

response = litellm.completion(
        model="gpt-3.5-turbo",
        messages=[
            {
                "role": "user",
                "content": "hello who are you"
            }
        ],
        cache={"no-cache": True},
    )

No-Store

Example usage no-store - When True, Will not cache the response.

response = litellm.completion(
        model="gpt-3.5-turbo",
        messages=[
            {
                "role": "user",
                "content": "hello who are you"
            }
        ],
        cache={"no-store": True},
    )

ttl

Example usage `ttl` - cache the response for 10 seconds

response = litellm.completion(
        model="gpt-3.5-turbo",
        messages=[
            {
                "role": "user",
                "content": "hello who are you"
            }
        ],
        cache={"ttl": 10},
    )

s-maxage

Example usage `s-maxage` - Will only accept cached responses for 60 seconds

response = litellm.completion(
        model="gpt-3.5-turbo",
        messages=[
            {
                "role": "user",
                "content": "hello who are you"
            }
        ],
        cache={"s-maxage": 60},
    )

Cache Context Manager - Enable, Disable, Update Cache

Use the context manager for easily enabling, disabling & updating the litellm cache

Enabling Cache

Quick Start Enable

litellm.enable_cache()

Advanced Params

litellm.enable_cache(
    type: Optional[Literal["local", "redis", "s3", "disk"]] = "local",
    host: Optional[str] = None,
    port: Optional[str] = None,
    password: Optional[str] = None,
    supported_call_types: Optional[
        List[Literal["completion", "acompletion", "embedding", "aembedding", "atranscription", "transcription"]]
    ] = ["completion", "acompletion", "embedding", "aembedding", "atranscription", "transcription"],
    **kwargs,
)

Disabling Cache

Switch caching off

litellm.disable_cache()

Updating Cache Params (Redis Host, Port etc)

Update the Cache params

litellm.update_cache(
    type: Optional[Literal["local", "redis", "s3", "disk"]] = "local",
    host: Optional[str] = None,
    port: Optional[str] = None,
    password: Optional[str] = None,
    supported_call_types: Optional[
        List[Literal["completion", "acompletion", "embedding", "aembedding", "atranscription", "transcription"]]
    ] = ["completion", "acompletion", "embedding", "aembedding", "atranscription", "transcription"],
    **kwargs,
)

Custom Cache Keys:

Define function to return cache key

# this function takes in *args, **kwargs and returns the key you want to use for caching
def custom_get_cache_key(*args, **kwargs):
    # return key to use for your cache:
    key = kwargs.get("model", "") + str(kwargs.get("messages", "")) + str(kwargs.get("temperature", "")) + str(kwargs.get("logit_bias", ""))
    print("key for cache", key)
    return key

Set your function as litellm.cache.get_cache_key

from litellm.caching.caching import Cache

cache = Cache(type="redis", host=os.environ['REDIS_HOST'], port=os.environ['REDIS_PORT'], password=os.environ['REDIS_PASSWORD'])

cache.get_cache_key = custom_get_cache_key # set get_cache_key function for your cache

litellm.cache = cache # set litellm.cache to your cache 

How to write custom add/get cache functions

1. Init Cache

from litellm.caching.caching import Cache
cache = Cache()

2. Define custom add/get cache functions

def add_cache(self, result, *args, **kwargs):
  your logic
  
def get_cache(self, *args, **kwargs):
  your logic

3. Point cache add/get functions to your add/get functions

cache.add_cache = add_cache
cache.get_cache = get_cache

Cache Initialization Parameters

def __init__(
    self,
    type: Optional[Literal["local", "redis", "redis-semantic", "s3", "disk"]] = "local",
    supported_call_types: Optional[
        List[Literal["completion", "acompletion", "embedding", "aembedding", "atranscription", "transcription"]]
    ] = ["completion", "acompletion", "embedding", "aembedding", "atranscription", "transcription"],
    ttl: Optional[float] = None,
    default_in_memory_ttl: Optional[float] = None,

    # redis cache params
    host: Optional[str] = None,
    port: Optional[str] = None,
    password: Optional[str] = None,
    namespace: Optional[str] = None,
    default_in_redis_ttl: Optional[float] = None,
    similarity_threshold: Optional[float] = None,
    redis_semantic_cache_use_async=False,
    redis_semantic_cache_embedding_model="text-embedding-ada-002",
    redis_flush_size=None,

    # s3 Bucket, boto3 configuration
    s3_bucket_name: Optional[str] = None,
    s3_region_name: Optional[str] = None,
    s3_api_version: Optional[str] = None,
    s3_path: Optional[str] = None, # if you wish to save to a specific path
    s3_use_ssl: Optional[bool] = True,
    s3_verify: Optional[Union[bool, str]] = None,
    s3_endpoint_url: Optional[str] = None,
    s3_aws_access_key_id: Optional[str] = None,
    s3_aws_secret_access_key: Optional[str] = None,
    s3_aws_session_token: Optional[str] = None,
    s3_config: Optional[Any] = None,

    # disk cache params
    disk_cache_dir=None,

    # qdrant cache params
    qdrant_api_base: Optional[str] = None,
    qdrant_api_key: Optional[str] = None,
    qdrant_collection_name: Optional[str] = None,
    qdrant_quantization_config: Optional[str] = None,
    qdrant_semantic_cache_embedding_model="text-embedding-ada-002",

    **kwargs
):

Logging

Cache hits are logged in success events as kwarg["cache_hit"].

Here's an example of accessing it:

import litellm
from litellm.integrations.custom_logger import CustomLogger
from litellm import completion, acompletion, Cache

# create custom callback for success_events
class MyCustomHandler(CustomLogger):
  async def async_log_success_event(self, kwargs, response_obj, start_time, end_time): 
      print(f"On Success")
      print(f"Value of Cache hit: {kwargs['cache_hit']"})

async def test_async_completion_azure_caching():
  # set custom callback
  customHandler_caching = MyCustomHandler()
  litellm.callbacks = [customHandler_caching]

  # init cache 
  litellm.cache = Cache(type="redis", host=os.environ['REDIS_HOST'], port=os.environ['REDIS_PORT'], password=os.environ['REDIS_PASSWORD'])
  unique_time = time.time()
  response1 = await litellm.acompletion(model="azure/chatgpt-v-2",
                          messages=[{
                              "role": "user",
                              "content": f"Hi 👋 - i'm async azure {unique_time}"
                          }],
                          caching=True)
  await asyncio.sleep(1)
  print(f"customHandler_caching.states pre-cache hit: {customHandler_caching.states}")
  response2 = await litellm.acompletion(model="azure/chatgpt-v-2",
                          messages=[{
                              "role": "user",
                              "content": f"Hi 👋 - i'm async azure {unique_time}"
                          }],
                          caching=True)
  await asyncio.sleep(1) # success callbacks are done in parallel