Architecting on AWS
Architecting on AWS is for solution architects, solution design engineers, and developers who want to understand the architecture of AWS. In this course, you will learn to identify services and capabilities to build resilient, secure, and highly available IT solutions on the AWS cloud. Architectural solutions vary by industry, application types, and company size. AWS Authorized Instructors emphasize best practices using the AWS Well-Architected Framework and guide you through the process of designing optimal IT solutions based on real-world scenarios. Modules focus on account security, networking, compute, storage, database, monitoring, automation, containers, serverless architecture, edge services, backup and recovery. At the end of the course,
COD: AW-AWSA
Categorie: AWS
Who should participate
This course is intended for solution architects, solution design engineers, developers who want to understand AWS architecture, and individuals who want to become AWS Solutions Architect-Associate certified.
Prerequisites
Participants in this course are recommended to have the following prerequisites:
- Knowledge of distributed systems
- Familiarity with general networking concepts
- Familiarity with IP addressing
- Knowledge of multi-tier architectures
- Familiar with cloud computing concepts
Outgoing knowledge/skills
- Identify basic AWS architecture practices.
- Explore the use of AWS Management Tools: AWS Console, Command Line Interface (CLI), and CloudFormation in a lab environment.
- Review enforcement of account security using policies.
- Identify the elements that build a secure and elastic virtual network that includes private and public subnets.
- Practice building an AWS core network infrastructure.
- Determine strategies for a layered security approach to Virtual Private Cloud (VPC) subnets.
- Identify strategies for selecting appropriate compute resources based on business use cases.
- Practice building a VPC and adding an Elastic Cloud Compute (EC2) instance in a lab environment.
- Practice installing an Amazon Relational Database Service (RDS) instance and an Application Load Balancer (ALB) in the VPC you created.
- Compare AWS storage products and services based on business scenarios.
- Compare the different types of AWS database services based on your business needs.
- Practice building a highly available, autoscaling database tier in a lab.
Explore the business value of AWS monitoring solutions. - Identify and discuss the AWS automation tools that will help you build, maintain, and evolve your infrastructure.
- Discuss network peering, VPC endpoints, gateways, and routing solutions based on use cases.
- Discuss hybrid network configurations to extend and secure your infrastructure.
- Discuss the benefits of microservices as an effective decoupling strategy for powering highly available applications at scale.
- Explore AWS container services for rapid deployment of an infrastructure-agnostic, portable application environment.
- Identify the business and security benefits of AWS serverless services based on business examples.
Practice building a serverless infrastructure in a lab environment. - Discuss how AWS edge services address latency and security.
- Practice building a CloudFront implementation with an S3 backend in a lab environment.
- Explore AWS backup and recovery solutions and best practices to ensure business continuity and resiliency.
- Build a highly available and secure cloud architecture based on a business problem, in a facilitator-led workshop
Educational program
Module 1Â : Architecture Fundamental Review
Module 2Â : Account Security
Module 3Â : Networking, Part 1
Module 4Â : Computing
Module 5Â : Storage
Module 6Â : Database Services
Module 7Â : Monitoring and Scalability
Module 8Â : Automation
Module 9Â : Containers
Module 10Â : Networking Part 2
Module 11Â : Serverless Architecture Module 12 :Â Edge Services
Module 13 : Backup and Recovery
Module 13Â : Backup and Recovery
Capstone Lab: Building a layered AWS architecture
Duration – 3 days
Delivery – in Classroom, On Site, Remote
PC and SW requirements:
- Internet connection
- Web browser, Google Chrome
- Zoom
Language
Instructor: English
Workshop: English
Slides: English
