Metadata-Version: 2.1
Name: autonomize-ml-observability
Version: 1.2.7
Summary: Comprehensive LLM observability SDK with tracing, monitoring, and cost tracking
Home-page: https://github.com/autonomize-ai/autonomize-ml-observability.git
License: Proprietary
Keywords: mlflow,llm,observability,cost tracking,monitoring
Author: Jagveer Singh
Author-email: jagveer@autonomize.ai
Requires-Python: >=3.12,<4.0
Classifier: License :: Other/Proprietary License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.12
Provides-Extra: anthropic
Provides-Extra: modelhub
Provides-Extra: openai
Requires-Dist: anthropic (>=0.49.0,<0.50.0) ; extra == "anthropic"
Requires-Dist: autonomize-core (>=0.1.7,<0.2.0)
Requires-Dist: azure-identity (>=1.21.0,<2.0.0)
Requires-Dist: azure-storage-blob (>=12.25.1,<13.0.0)
Requires-Dist: httpx (>=0.28.1,<0.29.0) ; extra == "modelhub"
Requires-Dist: mlflow (>=2.21.2,<=3.1)
Requires-Dist: openai (>=1.43.0,<2.0.0) ; extra == "openai"
Requires-Dist: pandas (>=2.2.2,<3.0.0)
Requires-Dist: tenacity (>=8.2.3,<10.0.0)
Requires-Dist: tiktoken (>=0.7.0)
Project-URL: Repository, https://github.com/autonomize-ai/autonomize-ml-observability.git
Description-Content-Type: text/markdown

# Autonomize ML Observability SDK

A comprehensive SDK for monitoring, tracing, and tracking costs for LLM applications with deep MLflow integration.

## Features

- **Automated LLM Monitoring**: Automatically monitor API calls for clients like OpenAI and Anthropic.
- **End-to-End Agent Tracing**: Trace complex, multi-step agent or flow executions, capturing performance, costs, and data at each step.
- **Centralized Cost Tracking**: Consolidate token usage and costs from multiple LLM calls within a single agent run.
- **Rich MLflow Integration**: Log traces, metrics, parameters, and artifacts to MLflow for powerful experiment tracking and visualization.
- **Async First**: Designed for modern, asynchronous applications.

## Installation

Install the package using pip:

```bash
pip install autonomize-ml-observability
```

### With Provider-Specific Dependencies

```bash
# For OpenAI support
pip install "autonomize-ml-observability[openai]"

# For Anthropic support
pip install "autonomize-ml-observability[anthropic]"

# For both OpenAI and Anthropic
pip install "autonomize-ml-observability[openai,anthropic]"
```

## Core Features

### 1. Automated LLM Monitoring

Wrap your LLM client with `monitor` to automatically track every API call, including performance, token usage, and costs. This is ideal for scenarios where you want detailed logs for each individual LLM interaction.

```python
import os
from openai import OpenAI
from ml_observability import monitor

# Set your MLflow tracking URI if not using a local server
# os.environ["MLFLOW_TRACKING_URI"] = "https://your-mlflow-server.com"

# Initialize the OpenAI client
client = OpenAI(api_key=os.environ.get("OPENAI_API_KEY"))

# Enable monitoring
# The first argument is the client, and the experiment_name is for MLflow.
monitor(client, experiment_name="Monitored LLM Calls")

# Use the client as normal - every call is now tracked in MLflow
response = client.chat.completions.create(
    model="gpt-4o",
    messages=[{"role": "user", "content": "What is the capital of France?"}]
)
print(response.choices[0].message.content)
```

### 2. End-to-End Agent and Flow Tracing

For complex, multi-step processes like LangChain agents, the `LangflowAsyncTracer` provides a powerful way to capture the entire execution in a single, coherent trace. It automatically consolidates metrics from all LLM calls made during the run.

See a full, runnable example at `examples/observability/app/langflow_integration_example.py`.

```python
import os
import uuid
import asyncio
from langchain_openai import AzureChatOpenAI
from langchain.agents import AgentExecutor, create_tool_calling_agent
from langchain_core.prompts import ChatPromptTemplate
from langchain_community.tools import DuckDuckGoSearchRun
from ml_observability.observability import LangflowAsyncTracer

# --- Setup LLM and Tools ---
llm = AzureChatOpenAI(deployment_name="gpt-4", temperature=0)
tools = [DuckDuckGoSearchRun()]
prompt = ChatPromptTemplate.from_messages([
    ("system", "You are a helpful assistant."),
    ("human", "{input}"),
    ("placeholder", "{agent_scratchpad}"),
])
agent = create_tool_calling_agent(llm, tools, prompt)
agent_executor = AgentExecutor(agent=agent, tools=tools, verbose=True)


async def run_agent_with_tracing():
    # 1. Initialize the Tracer
    tracer = LangflowAsyncTracer(
        trace_name="DuckDuckGo Search Agent",
        trace_type="Agent",
        project_name="Agent Monitoring",
        trace_id=uuid.uuid4(),
    )
    # Wait for the tracer to initialize MLflow in the background
    while not tracer.ready:
        await asyncio.sleep(0.1)

    # 2. Get the LangChain Callback Handler from the Tracer
    # This callback automatically captures LLM costs and tokens for you.
    mlflow_callback = tracer.get_langchain_callback()

    # 3. Run the Agent with the Callback
    inputs = {"input": "What is the current price of NVIDIA stock?"}
    result = await agent_executor.ainvoke(
        inputs,
        config={"callbacks": [mlflow_callback]}
    )

    # 4. End the Trace
    # This finalizes the MLflow run, logging all aggregated metrics and the trace.
    tracer.end(inputs=inputs, outputs=result)

    print("\n✅ Agent execution complete. Check your MLflow UI!")

# Run the example
# asyncio.run(run_agent_with_tracing())
```
This will produce a single run in MLflow under the "Agent Monitoring" experiment, containing:
- A full, visual trace of the agent's execution path.
- Consolidated metrics like `total_cost`, `total_tokens`, and `total_agent_duration_seconds`.
- Detailed cost breakdowns and I/O artifacts.

## Quick Start

### Basic Usage with OpenAI

```python
import os
from openai import OpenAI
from ml_observability import monitor

# Set environment variables for authentication
os.environ["MODELHUB_BASE_URL"] = "https://your-modelhub-url.com"
os.environ["MODELHUB_CLIENT_ID"] = "your-client-id"
os.environ["MODELHUB_CLIENT_SECRET"] = "your-client-secret"
os.environ["OPENAI_API_KEY"] = "your-openai-api-key"

# Create OpenAI client
client = OpenAI()

# Enable monitoring (provider is auto-detected)
monitor(client)

# Use the client as normal - monitoring happens automatically
response = client.chat.completions.create(
    model="gpt-3.5-turbo",
    messages=[
        {"role": "system", "content": "You are a helpful assistant."},
        {"role": "user", "content": "What is machine learning?"}
    ]
)

print(response.choices[0].message.content)
```

### Using with Anthropic

```python
import os
import anthropic
from ml_observability import monitor

# Set environment variables
os.environ["MODELHUB_BASE_URL"] = "https://your-modelhub-url.com"
os.environ["MODELHUB_CLIENT_ID"] = "your-client-id"
os.environ["MODELHUB_CLIENT_SECRET"] = "your-client-secret"
os.environ["ANTHROPIC_API_KEY"] = "your-anthropic-api-key"

# Create Anthropic client
client = anthropic.Anthropic()

# Enable monitoring with explicit provider specification
monitor(client, provider="anthropic")

# Use the client normally
response = client.messages.create(
    model="claude-3-sonnet-20250219",
    messages=[
        {"role": "user", "content": "What is machine learning?"}
    ]
)

print(response.content[0].text)
```

## Detailed Examples

### Monitoring OpenAI API Calls

This example demonstrates basic monitoring setup for OpenAI, cost tracking, and MLflow integration:

```python
import os
import time
from openai import OpenAI
from ml_observability import monitor, identify

# Set your OpenAI API key
os.environ["OPENAI_API_KEY"] = "your-api-key"

# Set Modelhub credentials
os.environ["MODELHUB_BASE_URL"] = "https://your-modelhub-url.com"
os.environ["MODELHUB_CLIENT_ID"] = "your-client-id"
os.environ["MODELHUB_CLIENT_SECRET"] = "your-client-secret"
os.environ["EXPERIMENT_NAME"] = "openai-monitoring-demo"

# Initialize the OpenAI client
client = OpenAI()

# Enable monitoring on the OpenAI client
monitor(client)

# Function that uses the monitored client
def ask_question(question: str, model: str = "gpt-3.5-turbo"):
    """Ask a question to the LLM model and return the response."""
    # Use identify to set user properties (optional)
    with identify({"user_id": "user-123", "session_id": "session-456"}):
        response = client.chat.completions.create(
            model=model,
            messages=[
                {"role": "system", "content": "You are a helpful assistant."},
                {"role": "user", "content": question}
            ],
            temperature=0.7,
            max_tokens=150
        )
        return response.choices[0].message.content

# Test with a few questions
def main():
    questions = [
        "What is machine learning?",
        "Explain the concept of MLOps",
        "What are the benefits of monitoring LLM usage?"
    ]
    
    for question in questions:
        print(f"\nQuestion: {question}")
        start_time = time.time()
        answer = ask_question(question)
        duration = time.time() - start_time
        print(f"Answer: {answer}")
        print(f"Response time: {duration:.2f} seconds")
        time.sleep(1)

if __name__ == "__main__":
    main()
```

### Custom Cost Tracking

This example shows how to set up custom cost rates for different models and generate cost visualizations:

```python
import os
import json
import time
from openai import OpenAI
from ml_observability import monitor, initialize
from ml_observability.observability.cost_tracking import CostTracker
from ml_observability.visualization import log_cost_visualizations_to_mlflow, generate_cost_dashboard
import mlflow

# Set credentials
os.environ["OPENAI_API_KEY"] = "your-api-key"
os.environ["MODELHUB_BASE_URL"] = "https://your-modelhub-url.com"
os.environ["MODELHUB_CLIENT_ID"] = "your-client-id"
os.environ["MODELHUB_CLIENT_SECRET"] = "your-client-secret"
os.environ["EXPERIMENT_NAME"] = "cost-tracking-demo"

# Define custom cost rates for models ($/1K tokens)
custom_cost_rates = {
    "gpt-4o": {"input": 5.0, "output": 15.0},
    "gpt-3.5-turbo": {"input": 0.5, "output": 1.5},
    "claude-3-sonnet": {"input": 3.0, "output": 15.0},
    "my-custom-model": {"input": 0.25, "output": 0.75}  # Custom model rate
}

# Initialize with custom cost rates
initialize(cost_rates=custom_cost_rates, experiment_name="cost-tracking-demo")

# Create OpenAI client
client = OpenAI()
monitor(client)

# Get a reference to the cost tracker
cost_tracker = CostTracker(cost_rates=custom_cost_rates)

def simulate_api_calls():
    """Simulate a series of API calls to different models."""
    models = ["gpt-3.5-turbo", "gpt-4o", "claude-3-sonnet", "my-custom-model"]
    questions = [
        "What is the capital of France?",
        "Write a short poem about artificial intelligence",
        "Explain quantum computing in simple terms",
        "What are the main challenges in natural language processing?"
    ]
    
    with mlflow.start_run(run_name="cost_tracking_example") as run:
        for i, (model, question) in enumerate(zip(models, questions)):
            print(f"Calling {model} with question: {question[:30]}...")
            
            # Simulate different token usages
            input_tokens = len(question.split()) * (i + 1) * 2
            output_tokens = (i + 1) * 50
            
            if model.startswith("gpt"):
                # For OpenAI models, use the monitored client
                response = client.chat.completions.create(
                    model=model if not model == "my-custom-model" else "gpt-3.5-turbo",
                    messages=[
                        {"role": "system", "content": "You are a helpful assistant."},
                        {"role": "user", "content": question}
                    ],
                    max_tokens=output_tokens
                )
                print(f"Response: {response.choices[0].message.content[:50]}...")
            else:
                # For custom models or other providers, manually track costs
                cost_tracker.track_cost(
                    model_name=model,
                    input_tokens=input_tokens,
                    output_tokens=output_tokens,
                    provider="custom" if model == "my-custom-model" else "anthropic",
                    metadata={"question": question}
                )
                print(f"Simulated response for {model}...")
            
            time.sleep(1)
        
        # Generate cost summary
        summary = cost_tracker.get_cost_summary()
        print("\nCost Summary:")
        print(json.dumps(summary, indent=2))
        
        # Log cost summary to MLflow
        cost_tracker.log_cost_summary_to_mlflow(run.info.run_id)
        
        # Generate and log visualizations
        log_cost_visualizations_to_mlflow(cost_tracker.tracked_costs, run.info.run_id)
        
        # Generate dashboard (optional)
        dashboard_path = generate_cost_dashboard(cost_tracker.tracked_costs)
        print(f"\nDashboard generated at: {dashboard_path}")

if __name__ == "__main__":
    simulate_api_calls()
```

### Monitoring Anthropic with Decorators

This example demonstrates how to set up monitoring for Anthropic's Claude models and use the agent and tool decorator patterns:

```python
import os
import time
import anthropic
from ml_observability import monitor, agent, tool

# Set your Anthropic API key
os.environ["ANTHROPIC_API_KEY"] = "your-anthropic-api-key"

# Set Modelhub credentials
os.environ["MODELHUB_BASE_URL"] = "https://your-modelhub-url.com"
os.environ["MODELHUB_CLIENT_ID"] = "your-client-id"
os.environ["MODELHUB_CLIENT_SECRET"] = "your-client-secret"
os.environ["EXPERIMENT_NAME"] = "anthropic-monitoring-demo"

# Initialize the Anthropic client
client = anthropic.Anthropic()

# Enable monitoring (the provider will be auto-detected)
monitor(client, provider="anthropic")

# Decorator for tracking an agent function
@agent(name="content_generator", tags={"type": "content_generation"})
def generate_content(prompt, model="claude-3-sonnet-20250219"):
    """Generate content using Claude with automatic tracking."""
    response = client.messages.create(
        model=model,
        max_tokens=1000,
        messages=[
            {"role": "user", "content": prompt}
        ]
    )
    return response.content[0].text

# Decorator for tracking a tool function
@tool(name="text_summarizer")
def summarize_text(text, model="claude-3-haiku"):
    """Summarize text using Claude with automatic tracking."""
    prompt = f"Please summarize the following text concisely:\n\n{text}"
    response = client.messages.create(
        model=model,
        max_tokens=300,
        messages=[
            {"role": "user", "content": prompt}
        ]
    )
    return response.content[0].text

def main():
    # Example text to summarize
    long_text = """
    Machine learning (ML) is a subset of artificial intelligence (AI) that focuses on developing 
    systems that learn or improve performance based on the data they consume. ML algorithms build 
    mathematical models based on sample data, known as training data, to make predictions or decisions 
    without being explicitly programmed to do so. These algorithms identify patterns in observed data, 
    build models that explain the world, and make predictions from seemingly chaotic information.
    
    There are three main types of machine learning: supervised learning, unsupervised learning, and 
    reinforcement learning. In supervised learning, the algorithm is provided with labeled training 
    data and the desired output. In unsupervised learning, the algorithm is given unlabeled data and 
    must find patterns and relationships on its own. Reinforcement learning involves an agent that 
    learns to make decisions by taking actions in an environment to maximize a reward.
    
    MLOps (Machine Learning Operations) is the practice of collaboration and communication between 
    data scientists and operations professionals to help manage the production ML lifecycle. It aims 
    to standardize and streamline the continuous delivery of high-performing models in production by 
    automating and monitoring all steps of system construction.
    """
    
    print("Generating content...")
    content = generate_content("Write a short blog post about the future of AI and automation")
    print(f"Generated content: {content[:100]}...\n")
    
    print("Summarizing text...")
    summary = summarize_text(long_text)
    print(f"Summary: {summary}")

if __name__ == "__main__":
    main()
```

### Async OpenAI Example

This example demonstrates how to use the SDK with asynchronous API calls:

```python
import os
import asyncio
import time
from datetime import datetime
import json
from openai import AsyncOpenAI
from ml_observability import monitor
from ml_observability.visualization import generate_cost_summary_charts

# Set credentials
os.environ["OPENAI_API_KEY"] = "your-api-key"
os.environ["MODELHUB_BASE_URL"] = "https://your-modelhub-url.com"
os.environ["MODELHUB_CLIENT_ID"] = "your-client-id" 
os.environ["MODELHUB_CLIENT_SECRET"] = "your-client-secret"
os.environ["EXPERIMENT_NAME"] = "async-openai-demo"

# Initialize the AsyncOpenAI client
client = AsyncOpenAI()

# Enable monitoring on the AsyncOpenAI client
monitor(client)

async def ask_question(question: str, model: str = "gpt-3.5-turbo"):
    """Ask a question to the LLM model asynchronously."""
    start_time = time.time()
    
    response = await client.chat.completions.create(
        model=model,
        messages=[
            {"role": "system", "content": "You are a helpful assistant."},
            {"role": "user", "content": question}
        ],
        temperature=0.7,
        max_tokens=150
    )
    
    duration = time.time() - start_time
    result = {
        "question": question,
        "answer": response.choices[0].message.content,
        "model": model,
        "duration": duration,
        "timestamp": datetime.now().isoformat(),
        "tokens": {
            "prompt": response.usage.prompt_tokens,
            "completion": response.usage.completion_tokens,
            "total": response.usage.total_tokens
        }
    }
    return result

async def process_batch(questions, model="gpt-3.5-turbo"):
    """Process a batch of questions concurrently."""
    tasks = [ask_question(question, model) for question in questions]
    return await asyncio.gather(*tasks)

async def main():
    # Define questions
    questions = [
        "What is machine learning?",
        "Explain the concept of MLOps",
        "What are the benefits of monitoring LLM usage?"
    ]
    
    # Process questions concurrently
    results = await process_batch(questions)
    
    # Print results
    for result in results:
        print(f"\nQuestion: {result['question']}")
        print(f"Answer: {result['answer']}")
        print(f"Duration: {result['duration']:.2f} seconds")
        print(f"Tokens: {result['tokens']['total']} ({result['tokens']['prompt']} prompt, {result['tokens']['completion']} completion)")

if __name__ == "__main__":
    asyncio.run(main())
```

## Configuration

### Setting Up Credentials

The SDK supports different authentication methods:

```python
from autonomize.core.credential import ModelhubCredential

# Using environment variables (recommended)
# Set MODELHUB_BASE_URL, MODELHUB_CLIENT_ID, MODELHUB_CLIENT_SECRET
credential = ModelhubCredential()

# Or explicitly
credential = ModelhubCredential(
    modelhub_url="https://your-modelhub-url.com",
    client_id="your-client-id",
    client_secret="your-client-secret"
)

# Using direct token (not recommended for production)
credential = ModelhubCredential(token="your-jwt-token")
```

### Custom Cost Rates

Configure custom cost rates for different models:

```python
from ml_observability.observability.cost_tracking import CostTracker

# Define custom cost rates ($ per 1K tokens)
custom_rates = {
    "gpt-4o": {"input": 5.0, "output": 15.0},
    "gpt-3.5-turbo": {"input": 0.5, "output": 1.5},
    "claude-3-opus": {"input": 15.0, "output": 75.0},
    "my-custom-model": {"input": 0.25, "output": 0.75}
}

# Initialize cost tracker with custom rates
cost_tracker = CostTracker(cost_rates=custom_rates)
```

## License

Proprietary © Autonomize.ai
