Set up and configure the Azure development environment
Design a system with high availability that adheres to application Service Level Agreement (SLAs)
Architecting for High Availability on Azure
Deploy static content to a cloud-based storage service that can deliver directly to the client with performance and scalability
Handle anticipated temporary failures with high resiliency
Review existing deployment and new components that are resilient and build and revise with enterprise architectureAbout
Growing businesses task developers with the responsibility of building highly available and performant systems at scale.
This course will help you build cloud systems that provide stringent scalability, performance, resiliency, and monitoring capabilities with Azure. You’ll start off with cloud design patterns and high availability systems such as queue-based load leveling, event sourcing, and more. You’ll dive into Azure services to implement high availability solutions. Then you’ll monitor your application to diagnose problems, detect anomalies, and continuously improve performance with application insights. You’ll architect resilient systems using Azure services and accelerate development timelines.
By the end of this course, you’ll not only have practical experience and confidence to design a business-critical application that is highly available and resilient, but you’ll also be able to deploy applications with ease to Azure Services!
Style and Approach
In-depth content balanced with demos and real-world examples that put theory into practice. The focus of this course is to give you both the understanding and the practical knowledge that will allow you to take a nose dive into the cloud with Microsoft Azure Services, followed by the confidence to deploy these services on a highly available, scalable basis.
Features
Gain key insights into high availability architecture by leveraging out of the box Azure Services
Learn to build high-performance cloud-native systems at scale
Model an application architecture adhering to enterprise-level high-availability requirements and leverage design techniques to meet service level agreements