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Observability

Parea for Observing, Testing & Fine-tuning of Instructor

Parea is a platform that enables teams to monitor, collaborate, test & label for LLM applications. In this blog we will explore how Parea can be used to enhance the OpenAI client alongside instructor and debug + improve instructor calls. Parea has some features which makes it particularly useful for instructor:

  • it automatically groups any LLM calls due to reties under a single trace
  • it automatically tracks any validation error counts & fields that occur when using instructor
  • it provides a UI to label JSON responses by filling out a form instead of editing JSON objects
Configure Parea

Before starting this tutorial, make sure that you've registered for a Parea account. You'll also need to create an API key.

Example: Writing Emails with URLs from Instructor Docs

We will demonstrate Parea by using instructor to write emails which only contain URLs from the instructor docs. We'll need to install our dependencies before proceeding so simply run the command below.

pip install -U parea-ai instructor

Parea is dead simple to integrate - all it takes is 2 lines of code, and we have it setup.

import os

import instructor
import requests
from dotenv import load_dotenv
from openai import OpenAI
from pydantic import BaseModel, field_validator, Field
import re
from parea import Parea #(1)!

load_dotenv()

client = OpenAI()

p = Parea(api_key=os.getenv("PAREA_API_KEY")) #(2)!
p.wrap_openai_client(client, "instructor")

client = instructor.from_openai(client)
  1. Import Parea from the parea module
  2. Setup tracing using their native integration with instructor

In this example, we'll be looking at writing emails which only contain links to the instructor docs. To do so, we can define a simple Pydantic model as seen below.

class Email(BaseModel):
    subject: str
    body: str = Field(
        ...,
        description="Email body, Should contain links to instructor documentation. ",
    )

    @field_validator("body")
    def check_urls(cls, v):
        urls = re.findall(r"https?://(?:[-\w.]|(?:%[\da-fA-F]{2}))+", v)
        errors = []
        for url in urls:
            if not url.startswith("https://python.useinstructor.com"):
                errors.append(
                    f"URL {url} is not from useinstructor.com, Only include URLs that include use instructor.com. "
                )
            response = requests.get(url)
            if response.status_code != 200:
                errors.append(
                    f"URL {url} returned status code {response.status_code}. Only include valid URLs that exist."
                )
            elif "404" in response.text:
                errors.append(
                    f"URL {url} contained '404' in the body. Only include valid URLs that exist."
                )
        if errors:
            raise ValueError("\n".join(errors))
        return

Now we can proceed to create an email using above Pydantic model.

email = client.messages.create(
    model="gpt-3.5-turbo",
    max_tokens=1024,
    max_retries=3,
    messages=[ #(1)!
        {
            "role": "user",
            "content": "I'm responding to a student's question. Here is the link to the documentation: {{doc_link1}} and {{doc_link2}}",
        }
    ],
    template_inputs={
        "doc_link1": "https://python.useinstructor.com/docs/tutorial/tutorial-1",
        "doc_link2": "https://jxnl.github.io/docs/tutorial/tutorial-2",
    },
    response_model=Email,
)
print(email)
  1. Parea supports templated prompts via {{...}} syntax in the messages parameter. We can pass the template inputs as a dictionary to the template_inputs parameter.

If you follow what we've done, Parea has wrapped the client, and we wrote an email with links from the instructor docs.

Validation Error Tracking

To take a look at trace of this execution checkout the screenshot below. Noticeable:

  • left sidebar: all related LLM calls are grouped under a trace called instructor
  • middle section: the root trace visualizes the templated_inputs as inputs and the created Email object as output
  • bottom of right sidebar: any validation errors are captured and tracked as score for the trace which enables visualizing them in dashboards and filtering by them on tables

Above we can see that while the email was successfully created, there was a validation error which meant that additional cost & latency were introduced because of the initially failed validation. Below we can see a visualization of the average validation error count for our instructor usage over time.

Label Responses for Fine-Tuning

Sometimes you may want to let subject-matter experts (SMEs) label responses to use them for fine-tuning. Parea provides a way to do this via an annotation queue. Editing raw JSON objects to correct tool use & function calling responses can be error-prone, esp. for non-devs. For that purpose, Parea has a so-called Form Mode which allows the user to safely fill-out a form instead of editing the JSON object. The labeled data can then be exported and used for fine-tuning.

Form Mode

Export Labeled Data & Fine-Tune

After labeling the data, you can export them as JSONL file:

from parea import Parea

p = Parea(api_key=os.getenv("PAREA_API_KEY"))

dataset = p.get_collection(DATASET_ID)  #(1)!
dataset.write_to_finetune_jsonl("finetune.jsonl")  #(2)!
  1. Replace DATASET_ID with the actual dataset ID
  2. Writes the dataset to a JSONL file

Now we can use instructor to fine-tune the model:

instructor jobs create-from-file finetune.jsonl

Why Logfire is a perfect fit for FastAPI + Instructor

Logfire is a new tool that provides key insight into your application with Open Telemtry. Instead of using ad-hoc print statements, Logfire helps to profile every part of your application and is integrated directly into Pydantic and FastAPI, two popular libraries amongst Instructor users.

In short, this is the secret sauce to help you get your application to the finish line and beyond. We'll show you how to easily integrate Logfire into FastAPI, one of the most popular choices amongst users of Instructor using two examples

  1. Data Extraction from a single User Query
  2. Using asyncio to process multiple users in parallel
  3. Streaming multiple objects using an Iterable so that they're avaliable on demand

Logfire

Introduction

Logfire is a new observability platform coming from the creators of Pydantic. It integrates almost seamlessly with many of your favourite libraries such as Pydantic, HTTPx and Instructor. In this article, we'll show you how to use Logfire with Instructor to gain visibility into the performance of your entire application.

We'll walk through the following examples

  1. Classifying scam emails using Instructor
  2. Performing simple validation using the llm_validator
  3. Extracting data into a markdown table from an infographic with GPT4V

Seamless Support with Langsmith

Its a common misconception that LangChain's LangSmith is only compatible with LangChain's models. In reality, LangSmith is a unified DevOps platform for developing, collaborating, testing, deploying, and monitoring LLM applications. In this blog we will explore how LangSmith can be used to enhance the OpenAI client alongside instructor.