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Build applications that make decisions (chatbots, agents, simulations, etc...). Monitor, trace, persist, and execute on your own infrastructure.

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DAGWorks-Inc/burr

Burr

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Burr makes it easy to develop applications that make decisions (chatbots, agents, simulations, etc...) from simple python building blocks.

Burr works well for any application that uses LLMs, and can integrate with any of your favorite frameworks. Burr includes a UI that can track/monitor/trace your system in real time, along with pluggable persisters (e.g. for memory) to save & load application state.

Link to documentation. Quick (<3min) video intro here. Longer video intro & walkthrough. Blog post here. Join discord for help/questions here.

πŸƒQuick start

Install from pypi:

pip install "burr[start]"

(see the docs if you're using poetry)

Then run the UI server:

burr

This will open up Burr's telemetry UI. It comes loaded with some default data so you can click around. It also has a demo chat application to help demonstrate what the UI captures enabling you too see things changing in real-time. Hit the "Demos" side bar on the left and select chatbot. To chat it requires the OPENAI_API_KEY environment variable to be set, but you can still see how it works if you don't have an API key set.

Next, start coding / running examples:

git clone https://github.com/dagworks-inc/burr && cd burr/examples/hello-world-counter
python application.py

You'll see the counter example running in the terminal, along with the trace being tracked in the UI. See if you can find it.

For more details see the getting started guide.

πŸ”© How does Burr work?

With Burr you express your application as a state machine (i.e. a graph/flowchart). You can (and should!) use it for anything in which you have to manage state, track complex decisions, add human feedback, or dictate an idempotent, self-persisting workflow.

The core API is simple -- the Burr hello-world looks like this (plug in your own LLM, or copy from the docs for gpt-X)

from burr.core import action, State, ApplicationBuilder

@action(reads=[], writes=["prompt", "chat_history"])
def human_input(state: State, prompt: str) -> State:
    # your code -- write what you want here!
    return state.update(prompt=prompt).append(chat_history=chat_item)

@action(reads=["chat_history"], writes=["response", "chat_history"])
def ai_response(state: State) -> State:
    response = _query_llm(state["chat_history"]) # Burr doesn't care how you use LLMs!
    return state.update(response=content).append(chat_history=chat_item)

app = (
    ApplicationBuilder()
    .with_actions(human_input, ai_response)
    .with_transitions(
        ("human_input", "ai_response"),
        ("ai_response", "human_input")
    ).with_state(chat_history=[])
    .with_entrypoint("human_input")
    .build()
)
*_, state = app.run(halt_after=["ai_response"], inputs={"prompt": "Who was Aaron Burr, sir?"})
print("answer:", app.state["response"])

Burr includes:

  1. A (dependency-free) low-abstraction python library that enables you to build and manage state machines with simple python functions
  2. A UI you can use view execution telemetry for introspection and debugging
  3. A set of integrations to make it easier to persist state, connect to telemetry, and integrate with other systems

Burr at work

πŸ’»οΈ What can you do with Burr?

Burr can be used to power a variety of applications, including:

  1. A simple gpt-like chatbot
  2. A stateful RAG-based chatbot
  3. An LLM-based adventure game
  4. An interactive assistant for writing emails

As well as a variety of (non-LLM) use-cases, including a time-series forecasting simulation, and hyperparameter tuning.

And a lot more!

Using hooks and other integrations you can (a) integrate with any of your favorite vendors (LLM observability, storage, etc...), and (b) build custom actions that delegate to your favorite libraries (like Hamilton).

Burr will not tell you how to build your models, how to query APIs, or how to manage your data. It will help you tie all these together in a way that scales with your needs and makes following the logic of your system easy. Burr comes out of the box with a host of integrations including tooling to build a UI in streamlit and watch your state machine execute.

πŸ— Start building

See the documentation for getting started, and follow the example. Then read through some of the concepts and write your own application!

πŸ“ƒ Comparison against common frameworks

While Burr is attempting something (somewhat) unique, there are a variety of tools that occupy similar spaces:

Criteria Burr Langgraph temporal Langchain Superagent Hamilton
Explicitly models a state machine βœ… βœ… ❌ ❌ ❌ ❌
Framework-agnostic βœ… βœ… βœ… βœ… ❌ βœ…
Asynchronous event-based orchestration ❌ ❌ βœ… ❌ ❌ ❌
Built for core web-service logic βœ… βœ… ❌ βœ… βœ… βœ…
Open-source user-interface for monitoring/tracing βœ… ❌ ❌ ❌ ❌ βœ…
Works with non-LLM use-cases βœ… ❌ ❌ ❌ ❌ βœ…

🌯 Why the name Burr?

Burr is named after Aaron Burr, founding father, third VP of the United States, and murderer/arch-nemesis of Alexander Hamilton. What's the connection with Hamilton? This is DAGWorks' second open-source library release after the Hamilton library We imagine a world in which Burr and Hamilton lived in harmony and saw through their differences to better the union. We originally built Burr as a harness to handle state between executions of Hamilton DAGs (because DAGs don't have cycles), but realized that it has a wide array of applications and decided to release it more broadly.

πŸ›£ Roadmap

While Burr is stable and well-tested, we have quite a few tools/features on our roadmap!

  1. Parallelism -- support for recursive "sub-agents" through an ergonomic API (not: this is already feasible, see recursive applications).
  2. Testing & eval curation. Curating data with annotations and being able to export these annotations to create unit & integration tests.
  3. Various efficiency/usability improvements for the core library (see planned capabilities for more details). This includes:
    1. First-class support for retries + exception management
    2. More integration with popular frameworks (LCEL, LLamaIndex, Hamilton, etc...)
    3. Capturing & surfacing extra metadata, e.g. annotations for particular point in time, that you can then pull out for fine-tuning, etc.
  4. Tooling for hosted execution of state machines, integrating with your infrastructure (Ray, modal, FastAPI + EC2, etc...)
  5. Storage integrations. More integrations with technologies like Redis, MongoDB, MySQL, etc. so you can run Burr on top of what you have available.
  6. More out of the box plugins for fine-grained tracing, e.g. decorators for your functions, LLM clients, etc.

If you want to avoid self-hosting the above solutions we're building Burr Cloud. To let us know you're interested sign up here for the waitlist to get access.

🀲 Contributing

We welcome contributors! To get started on developing, see the developer-facing docs.

πŸ‘ͺ Contributors

Code contributions

Users who have contributed core functionality, integrations, or examples.

Bug hunters/special mentions

Users who have contributed small docs fixes, design suggestions, and found bugs