Book Image

Machine Learning at Scale with H2O

By : Gregory Keys, David Whiting
Book Image

Machine Learning at Scale with H2O

By: Gregory Keys, David Whiting

Overview of this book

H2O is an open source, fast, and scalable machine learning framework that allows you to build models using big data and then easily productionalize them in diverse enterprise environments. Machine Learning at Scale with H2O begins with an overview of the challenges faced in building machine learning models on large enterprise systems, and then addresses how H2O helps you to overcome them. You’ll start by exploring H2O’s in-memory distributed architecture and find out how it enables you to build highly accurate and explainable models on massive datasets using your favorite ML algorithms, language, and IDE. You’ll also get to grips with the seamless integration of H2O model building and deployment with Spark using H2O Sparkling Water. You’ll then learn how to easily deploy models with H2O MOJO. Next, the book shows you how H2O Enterprise Steam handles admin configurations and user management, and then helps you to identify different stakeholder perspectives that a data scientist must understand in order to succeed in an enterprise setting. Finally, you’ll be introduced to the H2O AI Cloud platform and explore the entire machine learning life cycle using multiple advanced AI capabilities. By the end of this book, you’ll be able to build and deploy advanced, state-of-the-art machine learning models for your business needs.
Table of Contents (22 chapters)
1
Section 1 – Introduction to the H2O Machine Learning Platform for Data at Scale
5
Section 2 – Building State-of-the-Art Models on Large Data Volumes Using H2O
11
Section 3 – Deploying Your Models to Production Environments
14
Section 4 – Enterprise Stakeholder Perspectives
17
Section 5 – Broadening the View – Data to AI Applications with the H2O AI Cloud Platform

Ensuring H2O model reproducibility

In a laboratory or experimental setting, repeating a process under the same protocols and conditions should lead to similar results. Natural variability may of course occur, but this can be measured and attributed to appropriate factors. This is termed repeatability. The enterprise data scientist should ensure that their model builds are well coded and sufficiently documented to make the process repeatable.

Reproducibility in the context of model building is a much stronger condition: the results when a process is repeated must be identical. From a regulatory or compliance perspective, reproducibility may be required.

At a high level, reproducibility requires the same hardware, software, data, and settings. Let's review this specifically for H2O setups. We begin with two cases depending on the H2O cluster type.

Case 1 – Reproducibility in single-node clusters

A single-node cluster is the simplest H2O hardware configuration...