Book Image

Practical Site Reliability Engineering

By : Pethuru Raj Chelliah, Shreyash Naithani, Shailender Singh
Book Image

Practical Site Reliability Engineering

By: Pethuru Raj Chelliah, Shreyash Naithani, Shailender Singh

Overview of this book

Site reliability engineering (SRE) is being touted as the most competent paradigm in establishing and ensuring next-generation high-quality software solutions. This book starts by introducing you to the SRE paradigm and covers the need for highly reliable IT platforms and infrastructures. As you make your way through the next set of chapters, you will learn to develop microservices using Spring Boot and make use of RESTful frameworks. You will also learn about GitHub for deployment, containerization, and Docker containers. Practical Site Reliability Engineering teaches you to set up and sustain containerized cloud environments, and also covers architectural and design patterns and reliability implementation techniques such as reactive programming, and languages such as Ballerina and Rust. In the concluding chapters, you will get well-versed with service mesh solutions such as Istio and Linkerd, and understand service resilience test practices, API gateways, and edge/fog computing. By the end of this book, you will have gained experience on working with SRE concepts and be able to deliver highly reliable apps and services.
Table of Contents (19 chapters)
Title Page
Dedication
About Packt
Contributors
Preface
10
Containers, Kubernetes, and Istio Monitoring
Index

Prognostic, predictive, and prescriptive analytics


Any operational environment is in need of data analytics and machine learning capabilities to be intelligent in their everyday actions and reactions. The profoundly impacting environments include IT environments (traditional data centers or recent cloud-enabled data centers (CeDCs)), manufacturing and assembly floors, plant operations, maintenance, repair, and overhaul (MRO) facilities. Increasingly, a variety of important environments are being stuffed with scores of networked, embedded, and resource constrained, as well as intensive devices, toolsets, and microcontrollers. Hospitals have a growing array of medical instruments, and homes are blessed with a number of wares and utensils, such as connected coffee makers, dishwashers, microwave ovens, and consumer electronics. Manufacturing floors have powerful equipment, machinery, and robots. Workshops, mechanical shops, and flight maintenance garages are becoming more sophisticated and smarter...