Summarize App Usage
Most usage of LLM applications is in the form of unstructured data. LangChain can be used to cluster and summarize how people are using an application so you can build a better product.
In this example, you will perform simple k-means clustering and an LLM call to summarize logged user activity.
Prerequisites
This example assumes you've configured your environment to connect to LangSmith.
export LANGCHAIN_API_KEY=<your api key>
It also uses OpenAI for the embeddings and Anthropic to run the LLM. You can replace these with your models of choice or install the following:
pip install -U langchain openai anthropic
export OPENAI_API_KEY=<your api key>
export ANTHROPIC_API_KEY=<your api key>
Step 1: Sample recent runs
For this example, we will randomly sample from the past day's runs. You can take a much larger sample, depending on your needs.
import random
from datetime import datetime, timedelta
from langsmith import Client
# Update these values to match your project
# and run schema.
project_name = "my-project"
input_key = "question"
max_to_analyze = 10_000
yesterday = datetime.now() - timedelta(days=1)
client = Client()
runs = list(
client.list_runs(
project_name=project_name,
start_time=yesterday,
execution_order=1, # Ignore child runs
)
)
inputs = [str(run.inputs[input_key]) for run in runs if input_key in run.inputs]
sampled = inputs
if len(inputs) > max_to_analyze:
sampled = random.sample(sampled, max_to_analyze)
Step 2: Embed the inputs for clustering
Embeddings provide vector representations of text that we can use to cluster semantically similar inputs.
import numpy as np
from langchain.embeddings import OpenAIEmbeddings
embedder = OpenAIEmbeddings()
embeddings = embedder.embed_documents(sampled)
arr = np.stack(embeddings)
Now, cluster the embeddings:
from sklearn.cluster import KMeans
# Reduce n_clusters in case you're trying this walkthrough out on a small project
n_clusters = min(10, len(sampled)//4)
kmeans = KMeans(n_clusters=n_clusters, n_init='auto', init="k-means++", random_state=42)
kmeans.fit(arr)
Step 3: Summarize each cluster
Now it's time to produce the summaries! We will use Claude-2 using the ChatAnthropic
model with a 100k token context window.
You can check out the prompt we're using on the hub.
import anthropic
from langchain import hub
from langchain.chat_models import ChatAnthropic
from langchain.schema.output_parser import StrOutputParser
def _truncate_inputs(input_logs: list) -> str:
max_prompt_tokens = 80_000
# Truncate to max_prompt_tokens
tokenizer = anthropic.Anthropic().get_tokenizer()
inputs = "\n\n".join(input_logs)
truncated_ids = tokenizer.encode(inputs).ids[:max_prompt_tokens]
return {
"logs": tokenizer.decode(truncated_ids)
}
prompt = hub.pull("wfh/summarize_logs")
chain = (
_truncate_inputs
| prompt
| ChatAnthropic(
model="claude-2",
temperature=1,
max_tokens_to_sample=1000,
)
| StrOutputParser()
)
input_arr = np.array(sampled)
batch_inputs = [
input_arr[kmeans.labels_ == i] for i in range(n_clusters)
]
summaries = chain.batch(batch_inputs, {"max_concurrency": 2})
for summary in summaries:
print(summary)
Congratulations! You have now clustered and summarized user activity for an application.
This is just a simple example of how to use LangChain to analyze your application logs. You will likely want to combine this with other techniques, such as run filtering to select relevant examples. You can also update the prompt to ask more targed questions or to provide additional context.