Metadata-Version: 2.1
Name: potassium
Version: 0.0.5
Summary: The potassium package is a flask-like HTTP server for serving large AI models
Home-page: https://www.banana.dev
Author: Erik Dunteman
Author-email: erik@banana.dev
License: Apache License 2.0
Keywords: Banana server,HTTP server,Banana,Framework
Classifier: Development Status :: 3 - Alpha
Classifier: Intended Audience :: Developers
Classifier: Topic :: Software Development :: Build Tools
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Description-Content-Type: text/markdown
License-File: LICENSE

# Potassium

![Potassium (1)](https://user-images.githubusercontent.com/44653944/222016748-ca2c6905-8fd5-4ee5-a68e-7aed48f23436.png)

Potassium is an HTTP server framework designed for AI inference, by [Banana](https://banana.dev).

Potassium builds in best practices for on-GPU latency-critical serving, such as:
- Preloading models into memory
- Buffering calls into a single worker queue to prevent multithreading CUDA errors
- (much more to come)

---

## Quickstart: Serving a Huggingface BERT model

Install the potassium package

```bash
pip3 install potassium
```

Create a python file called `app.py` containing:

```python
from potassium import Potassium

from transformers import pipeline
import torch

app = Potassium("server")

@app.init
def init():
    device = 0 if torch.cuda.is_available() else -1
    model = pipeline('fill-mask', model='bert-base-uncased', device=device)

    app.optimize(model)

    return app.set_cache({
        "model": model
    })

@app.handler
def handler(cache: dict, json_in: dict) -> dict:
    prompt = json_in.get('prompt', None)
    model = cache.get("model")

    outputs = model(prompt)
    return {"outputs": outputs}

if __name__ == "__main__":
    app.serve()
```

This runs a Huggingface BERT model.

For this example, you'll also need to install transformers and torch.

```
pip3 install transformers torch
```

Start the server with:

```bash
python3 app.py
```

Test the running server with:

```bash
curl -X POST -H "Content-Type: application/json" -d '{"prompt": "Hello I am a [MASK] model."}' http://localhost:8000
```

# Documentation

## potassium.Potassium

```python
from potassium import Potassium

app = Potassium("server")
```

This instantiates your HTTP app, similar to popular frameworks like [Flask](https://flask.palletsprojects.com/en/2.2.x/_)

This HTTP server is production-ready out of the box, with a built-in queue to safely handle concurrent requests.

---

## @app.init

```python
@app.init
def init():
    device = 0 if torch.cuda.is_available() else -1
    model = pipeline('fill-mask', model='bert-base-uncased', device=device)

    app.optimize(model)

    return app.set_cache({
        "model": model
    })
```

The `@app.init` decorated function runs once on server startup, and is used to load any reuseable, heavy objects such as:

- Your AI model, loaded to GPU
- Tokenizers
- Precalculated embeddings

Once initialized, you must save those variables to the cache with `app.set_cache({})` so they can be referenced later.

There may only be one `@app.init` function.

---

## @app.handler

```python
@app.handler
def handler(cache: dict, json_in: dict) -> dict:
    prompt = json_in.get('prompt', None)
    model = cache.get("model")

    outputs = model(prompt)
    return {"outputs": outputs}
```

The `@app.handler` decorated function runs for every http call, and is used to run inference or training workloads against your model(s).

| Args     | Type | Description                                                                                       |
| ------- | ---- | ------------------------------------------------------------------------------------------------- |
| cache   | dict | The app's cache, set with set_cache()                                                             |
| json_in | dict | The json body of the input call. If using the Banana client SDK, this is the same as model_inputs |

| Return | Type | Description                                                                                              |
| ---------- | ---- | -------------------------------------------------------------------------------------------------------- |
| json_out   | dict | The json body to return to the client. If using the Banana client SDK, this is the same as model_outputs |

There may only be one `@app.handler` function.

---

## app.serve()

`app.serve` runs the server, and is a blocking operation.

---

## app.set_cache()

```python
app.set_cache({})
```

`app.set_cache` saves the input dictionary to the app's cache, for reuse in future calls. It may be used in both the `@app.init` and `@app.handler` functions.

`app.set_cache` overwrites any preexisting cache.

---

## app.get_cache()

```python
cache = app.get_cache()
```

`app.get_cache` fetches the dictionary to the app's cache. This value is automatically provided for you as the `cache` argument in the `@app.handler` function.

---

## app.optimize(model)

```python
model # some pytorch model
app.optimize(model)
```

`app.optimize` is a feature specific to users hosting on [Banana's serverless GPU infrastructure](https://banana.dev). It is run during buildtime rather than runtime, and is used to locate the model(s) to be targeted for Banana's Fastboot optimization.

Multiple models may be optimized. Only Pytorch models are currently supported.

---

## @app.result_webhook(url)

```python
@app.handler
@app.result_webhook(url="http://localhost:8001/")
def handler(cache: dict, json_in: dict) -> dict:
    # ...
    return {"outputs": outputs}
```

`app.result_webhook` is an optional decorator for the handler function. If added, it posts the handler return json onward to the given webhook url.
