-->
- Application Architecture Sample
- Msdn Microsoft Application Architecture Guide
- Microsoft Application Architecture Guide Pdf
- Microsoft Enterprise Application Architecture Guide
This guide presents a structured approach for designing applications on Azure that are scalable, resilient, and highly available. It is based on proven practices that we have learned from customer engagements.
This guide provides design-level guidance for the architecture and design of applications built on the.NET Framework. It focuses on the most common types of applications, partitioning application functionality into layers, components, and services, and walks through their key design characteristics.
- The purpose of the Application Architecture Guide 2.0 is to improve your effectiveness when building applications on the Microsoft platform. The primary audience for this guide is solution architects and development leads. The guide provides design-level guidance for the architecture and design of applications built on the Microsoft.NET platform.
- Microsoft Application Architecture Guide: 2nd Microsoft Press Redmond, WA, USA ©2009 ISBN:073562710X 109.
- Microsoft® Application Architecture Guide, 2nd Edition (Patterns & Practices) Microsoft Patterns & Practices Team on Amazon.com.FREE. shipping on qualifying offers. Get the definitive guide on designing applications on the Microsoft application platform—straight from the Microsoft patterns & practices team. Learn how to choose the most appropriate architecture and the best.
Introduction
The cloud is changing the way applications are designed. Instead of monoliths, applications are decomposed into smaller, decentralized services. These services communicate through APIs or by using asynchronous messaging or eventing. Applications scale horizontally, adding new instances as demand requires.
These trends bring new challenges. Application state is distributed. Operations are done in parallel and asynchronously. The system as a whole must be resilient when failures occur. Deployments must be automated and predictable. Monitoring and telemetry are critical for gaining insight into the system. The Azure Application Architecture Guide is designed to help you navigate these changes.
Traditional on-premises | Modern cloud |
---|---|
Monolithic, centralized Design for predictable scalability Relational database Strong consistency Serial and synchronized processing Design to avoid failures (MTBF) Occasional big updates Manual management Snowflake servers | Decomposed, de-centralized Design for elastic scale Polyglot persistence (mix of storage technologies) Eventual consistency Parallel and asynchronous processing Design for failure (MTTR) Frequent small updates Automated self-management Immutable infrastructure |
This guide is intended for application architects, developers, and operations teams. It's not a how-to guide for using individual Azure services. After reading this guide, you will understand the architectural patterns and best practices to apply when building on the Azure cloud platform.
How this guide is structured
The Azure Application Architecture Guide is organized as a series of steps, from the architecture and design to implementation. For each step, there is supporting guidance that will help you with the design of your application architecture.
Application Architecture Sample
Architecture styles
The first decision point is the most fundamental. What kind of architecture are you building? It might be a microservices architecture, a more traditional N-tier application, or a big data solution. We have identified several distinct architecture styles. There are benefits and challenges to each.
Learn more:
Technology choices
Two technology choices should be decided early on, because they affect the entire architecture. These are the choice of compute service and data stores. Compute refers to the hosting model for the computing resources that your applications runs on. Data stores includes databases but also storage for message queues, caches, logs, and anything else that an application might persist to storage.
Learn more:
Design principles
We have identified ten high-level design principles that will make your application more scalable, resilient, and manageable. These design principles apply to any architecture styles. Throughout the design process, keep these ten high-level design principles in mind. Then consider the set of best practices for specific aspects of the architecture, such as auto-scaling, caching, data partitioning, API design, and others.
Learn more:
Quality pillars
A successful cloud application will focus on five pillars of software quality: Scalability, availability, resiliency, management, and security. Use our design review checklists to review your architecture according to these quality pillars.
Msdn Microsoft Application Architecture Guide
More learning
Microsoft Application Architecture Guide Pdf
For a guided introduction to common cloud computing services, benefits of cloud computing, and cloud deployment modules, review Cloud Concepts - Principles of Cloud Computing.
Microsoft Enterprise Application Architecture Guide
For a more technical perspective on the key pillars of a cloud solution and principles for creating a solid architectural foundation, review Pillars of a great Azure Architecture.