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A PaaS End-to-End ML Setup with Metaflow, Serverless and SageMaker.

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no-ops-machine-learning

A PaaS End-to-End ML Setup with Metaflow, Serverless and SageMaker.


This repo is an end-to-end model building exercise, showing how to go from a dataset file to an endpoint serving predictions through a repeatable, modular and scalable process (DAG-based). More importantly, all of this is achieved in minutes from a developer laptop, without explicitly deploying/maintaining any infrastructure.

For the full context and details about the tutorial, please refer to the blog post.

Overview

The project is a regression problem using Keras, where we try to predict a numerical target y based on a numerical feature x. The functions are not particularly terse, but we aim for explanatory power over economy. The DAG in training.py is the following:

picture alt

In this project you can see:

  • the use of static files, versioned by MetaFlow automatically;
  • the use of the "fanout" capability, allowing parallel execution of training steps;
  • the use of the "batch" capability, in which local execution and cloud-enhanced computing co-exist seamlessly;
  • a GPU-backed deployment and prediction testing in 10 lines of code.

In a nutshell, three main tools are used:

  • Metaflow, to orchestrate the pipeline in a consistent and scalable manner;
  • SageMaker, to host a trained Keras model and provide real-time inference through an internal AWS endpoint;
  • serverless, to configure and deploy an external-facing endpoint (public API) that connects clients making GET requests to the model predictions served by the SageMaker endpoint.

Please refer to the blog post for an in-depth discussion about the tools and the philosophy behind our choices.

Project Structure

The flow folder contains the necessary code to train several models over a target dataset, store the intermediate results in s3 and then deploying the best performing variant to a SageMaker endpoint.

The serverless folder contains the necessary code to launch a lambda-powered endpoint, exposing SageMaker predictions to client applications.

How to Run the Full Tutorial

0. Prerequisites for the Development Environment

The project was developed and tested on Python 3.7; please make sure to have properly configured the following tools in your developer machine:

  • AWS credentials to access the relevant cloud services;
  • Metaflow, configured to use the AWS metastore; please note that if the @batch decorator is commented out, a local setup will work as well, but the project will then fail to showcase the integration between local and cloud computing;
  • Serverless.

Finally, make sure to install the packages specified in the requirements.txt file.

1. Create a Dataset

Run the create_dataset.py script in the flow folder to create a dataset.txt file with artificial data - the file is imported in the DAG to simulate the target dataset.

2. Train and Deploy a Model

Cd into the flow folder and run the command:

python training.py run

The Metaflow DAG will run from data loading (first step), to shipping a trained model to a newly created SageMaker endpoint (last step). We suggest to comment the @batch(gpu=1, memory=80000) decorator for the first run, to verify that the end-to-end local computation is working as expected.

At the end of the DAG, the terminal will print the name of the SageMaker endpoint hosting the model. Write the name down as it will be used to power the public lambda endpoint.

3. Deploy Public Endpoint with Serverless

Cd into the serverless folder and run the following command:

serverless deploy —endpoint regression-138048024289-endpoint

where regression-138048024289-endpoint is the name of the endpoint created by the MetaFlow DAG.

If all goes well, after a minute you should be greeted by a success message:

picture alt

By copying and pasting the GET url into the browser, you can get a real-time prediction from the model by passing the x parameter, e.g.:

https://my-url.amazonaws.com/dev/predict?x=9.45242

License

All code is provided freely "as is" under a standard MIT license.

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