Book Image

Architecting Microsoft Azure Solutions - Exam Guide 70-535

By : Sjoukje Zaal

Book Image

Architecting Microsoft Azure Solutions - Exam Guide 70-535

By: Sjoukje Zaal

Overview of this book

Architecting Microsoft Azure Solutions: Exam Guide 70-535 will get Azure architects and developers up-to-date with the latest updates on Azure from an architecture and design perspective. The book includes all the topics that are still relevant from the previous 70-534 exam, and is updated with latest topics covered, including Artificial Intelligence, IoT, and architecture styles. This exam guide is divided into six parts, where the first part will give you a good understanding of how to design a compute infrastructure. It also dives into designing networking and data implementations. You will learn about designing solutions for Platform Service and operations. Next, you will be able to secure your resources and data, as well as design a mechanism for governance and policies. You will also understand the objective of designing solutions for Platform Services, by covering Artificial Intelligence, IoT, media services, and messaging solution concepts. Finally, you will cover the designing for operations objective. This objective covers application and platform monitoring, as well as designing alerting strategies and operations automation strategies. By the end of the book, you’ll have met all of the exam objectives, and will have all the information you need to ace the 70-535 exam. You will also have become an expert in designing solutions on Microsoft Azure.

Preface

Who this book is for

What this book covers

To get the most out of this book

Free Chapter

Working with Azure Virtual Machines

Working with Azure Virtual Machines

Technical requirements

Designing solutions for virtual machines

Virtual machine series and sizes

Availability Sets

Fault domains and update domains

Creating highly available virtual machines

Disaster recovery

Further reading

Configuring Compute-Intensive Applications

Configuring Compute-Intensive Applications

High-performance compute virtual machines

Microsoft HPC Pack

Further reading

Designing Web Applications

Designing Web Applications

Technical requirements

App Service plans

Web Apps for Containers

Designing Web Apps for high availability, scalability, and performance

Designing and securing custom Web APIs

Further reading

Implementing Serverless and Microservices

Implementing Serverless and Microservices

Technical requirements

Event-driven actions using Azure Functions

Workflow-driven applications using Logic Apps

Designing for serverless computing using Azure Container Instances

Azure Service Fabric

Cloud-native deployments versus migrating assets

Further reading

Robust Networking Implementations

Robust Networking Implementations

Technical requirements

Azure Virtual Network

Azure Load Balancer

Azure Traffic Manager

Azure Application Gateway

External connectivity for Azure Virtual Networks

Network security strategies

Further reading

Connecting Hybrid Applications

Connecting Hybrid Applications

Azure Relay service

Azure Data Management Gateway for Data Factory

Azure On-premises Data Gateway

Azure App Service Hybrid Connections

Azure App Service Virtual Network Integration

Azure AD Application Proxy

Joining VMs to domains

Further reading

Using Storage Solutions

Using Storage Solutions

Technical requirements

Azure Storage and replication types

Azure Blob Storage

Azure Table Storage

Azure Queue Storage

Azure File Storage

Azure Disk Storage

Cosmos DB Storage

Further reading

Scalable Data Implementations

Scalable Data Implementations

Technical requirements

Azure Data Catalog

Azure Data Factory

Azure SQL Data Warehouse

Azure Data Lake

Azure Analysis Services

Azure SQL Database

Azure Database for MySQL

Azure Database for PostgreSQL

Further reading

Securing Your Resources

Securing Your Resources

Technical requirements

Azure Active Directory

Azure AD Connect

Active Directory Federation Services

Multi-Factor Authentication

Azure Active Directory Business to Business

Azure Active Directory Business to Consumer

Further reading

Securing Your Data

Securing Your Data

Technical requirements

Azure Key Vault

Azure Storage Service Encryption

Azure Disk Encryption

Azure SQL Database Security

Azure Active Directory Managed Service Identity

Further reading

Governance and Policies

Governance and Policies

Technical requirements

Azure Role-Based Access Control

Azure Resource Policies

Azure AD Privileged Identity Management

Azure AD Identity Protection

Azure Security Center

Operations Management Suite - Security and Compliance

Further reading

Artificial Intelligence, IoT, and Media Services

Artificial Intelligence, IoT, and Media Services

Technical requirements

Azure Cognitive Services

Azure Bot Service

Azure Machine Learning

Azure Stream Analytics

Azure Time Series Insights

Azure Media Services

Further reading

Implementing Messaging Solutions

Implementing Messaging Solutions

Technical requirements

Azure Queue Storage

Azure Service Bus

Azure Event Grid

Notification Hubs

Designing an effective messaging architecture

Further reading

Application Monitoring and Alerting Strategies

Application Monitoring and Alerting Strategies

Azure Log Analytics

Application Insights

Azure Service Health

Azure Network Watcher

Further reading

Exploring Operations Automation Strategies

Exploring Operations Automation Strategies

Designing an Operations Automation Strategy

Designing an autoscaling strategy

Further reading

Other Books You May Enjoy

Other Books You May Enjoy

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Appendix A – Assessments

Appendix A – Assessments

Appendix B – Mock Test Questions

Appendix B – Mock Test Questions

Appendix C – Mock Test Answers

Appendix C – Mock Test Answers

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Web Apps for Containers

Web Apps for Containers is part of the Azure App Service on Linux. It lets you easily deploy and scale your own Docker-formatted images on Azure. Docker is based on open standards, which means it can run on all major Linux distributions and Windows Server 2016.

Docker containers are lightweight sandboxes on top of your OS. When your application is deployed inside a Docker container, the app cannot see or access all other applications or processes that are running on the same OS. You can compare this to creating different VMs to host different types of workloads or applications, but without the overhead of the virtualization itself. Docker containers also share the same OS and infrastructure, whereas VMs need to have their own OS installed inside their own infrastructure.

With containers, you share the underlying resources of the Docker host and you build...