Building Resilient Microservices with Istio and Red Hat OpenShift Service Mesh (DO328)

 

Course Overview

Control, manage, trace, monitor, and test your microservices with Red Hat OpenShift Service Mesh

Building Resilient Microservices with Istio and Red Hat OpenShift Service Mesh (DO328) is an introduction to Red Hat OpenShift Service Mesh that teaches students installation, service monitoring, service resilience, and service security with Red Hat OpenShift Service Mesh.

Red Hat OpenShift created an enterprise-ready, multitenant platform that made deploying and scaling microservice applications efficient and repeatable. But as these architectures become larger and more complex, defining how these services interact with each other is increasingly difficult. Red Hat OpenShift Service Mesh comprises three products: Istio, Jaeger, and Kiali, facilitating a zero-trust network for managing secure service interactions, providing service tracing, and creating a visual representation of communication pathways.

This course is based on Red Hat OpenShift® Container Platform 4.6 and Red Hat OpenShift Service Mesh 1.1.

Who should attend

This course is designed for developers who want to deploy and scale microservices applications.

Prerequisites

Attending Red Hat Cloud-native Microservices Development with Quarkus (DO378) or demonstrating equivalent experience in creating microservice applications is recommended, but not required

Red Hat OpenShift Administration I: Containers & Kubernetes (DO180) and Red Hat OpenShift Developer II: Building and Deploying Cloud-native Applications (DO288)), and passing the Red Hat Certified OpenShift Application Developer Exam (EX288), or possessing basic OpenShift experience, is strongly recommended.

Course Objectives

Impact on the organization

Microservice architectures with Red Hat OpenShift Service Mesh enable organizations to improve application security, resilience, and scalability, while decreasing developer overhead. Red Hat OpenShift Service Mesh adds an additional level of security for data in transit with mutual TLS encryption and a zero-trust network. This leads organizations to improved time to market, as well as improved insight into their microservice architecture, by being able to visualize and trace data flow throughout their applications. These insights can dictate better resource allocation for applications as well as more quickly identifying defects in specific microservices.

Impact on the individual

You will be able to use the concepts in this course to simplify and more efficiently manage their service interactions. You will learn how to install and configure Red Hat OpenShift Service Mesh to define, monitor, manage, and secure service interaction within their microservice architecture. This course is intended to illustrate the ease of Red Hat OpenShift Service Mesh’s “sidecar” approach and to highlight the benefits of service resilience and monitoring that the product provides.

Course Content

  • Install Red Hat OpenShift Service Mesh on a Red Hat OpenShift cluster.
  • Apply release strategies by controlling service traffic.
  • Build service resilience with load balancing and failovers.
  • Test service resilience with chaos testing.
  • Enforce service security.
  • Observe, measure, and trace network traffic with OpenShift Service Mesh.

Prices & Delivery methods

Online Training

Duration
4 days

Price
  • 2,700.— €
Classroom Training

Duration
3 days

Price
  • Germany: 2,700.— €
  • Switzerland: CHF 2,835.—
E-Learning

Subscription duration
90 days

Price
  • Germany: 2,295.— €

Schedule

Instructor-led Online Training:   Course conducted online in a virtual classroom.

German

Time zone: Central European Time (CET)   ±1 hour

Online Training Time zone: Central European Summer Time (CEST)
Online Training Time zone: Central European Summer Time (CEST)

Europe

United Kingdom

Virtual 4 days
Virtual 4 days