Book Image

The Machine Learning Solutions Architect Handbook

By : David Ping
Book Image

The Machine Learning Solutions Architect Handbook

By: David Ping

Overview of this book

When equipped with a highly scalable machine learning (ML) platform, organizations can quickly scale the delivery of ML products for faster business value realization. There is a huge demand for skilled ML solutions architects in different industries, and this handbook will help you master the design patterns, architectural considerations, and the latest technology insights you’ll need to become one. You’ll start by understanding ML fundamentals and how ML can be applied to solve real-world business problems. Once you've explored a few leading problem-solving ML algorithms, this book will help you tackle data management and get the most out of ML libraries such as TensorFlow and PyTorch. Using open source technology such as Kubernetes/Kubeflow to build a data science environment and ML pipelines will be covered next, before moving on to building an enterprise ML architecture using Amazon Web Services (AWS). You’ll also learn about security and governance considerations, advanced ML engineering techniques, and how to apply bias detection, explainability, and privacy in ML model development. By the end of this book, you’ll be able to design and build an ML platform to support common use cases and architecture patterns like a true professional.
Table of Contents (17 chapters)
Section 1: Solving Business Challenges with Machine Learning Solution Architecture
Section 2: The Science, Tools, and Infrastructure Platform for Machine Learning
Section 3: Technical Architecture Design and Regulatory Considerations for Enterprise ML Platforms

Hands-on exercise – building and training a PyTorch model

In this hands-on exercise, you will learn how to install the PyTorch library in your local machine and train a simple deep learning model using PyTorch. Launch a Jupyter notebook that you have previously installed on your machine. If you don't remember how to do this, visit the Hands-on lab section of Chapter 3, Machine Learning Algorithms. Now, let's get started:

  1. Create a new folder called pytorch-lab in your Jupyter notebook environment and create a new notebook file called pytorch-lab1.ipynb. Run the following command in a cell to install PyTorch and the torchvision package. torchvision contains a set of computer vision models and datasets. We will use the pre-built MNIST dataset in the torchvision package for this exercise:
    !pip3 install torch
    !pip3 install torchvision
  2. The following sample code shows the previously mentioned main components. Be sure to run each code block in a separate Jupyter...