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AWS Well-Architected Framework Flashcards
AWS Certified Solutions Architect Associate SAA-C03 Flashcards
| Front | Back |
| Give an example of performance optimization for compute | Selecting the right instance type and sizing for workloads |
| How do you reduce costs when using AWS | Right-sizing instances using reserved instances and applying cost monitoring |
| How does reliability help an AWS architecture | Ensures workloads can recover from failures and automatically meet demand |
| How is cost optimization achieved | Avoiding unneeded costs and maximizing resource utilization |
| List the five pillars of the AWS Well-Architected Framework | Operational Excellence, Security, Reliability, Performance Efficiency, Cost Optimization |
| Name one practice to ensure operational excellence | Automating changes and responding to events quickly |
| What does operational excellence focus on | Operations processes, continuous improvement, and management of workloads |
| What does performance efficiency address | Using resources efficiently to meet system requirements |
| What is a key security best practice | Implementing the principle of least privilege and secure network architecture |
| What's an outcome of following the AWS Well-Architected Framework | High-performing secure and cost-efficient workloads |
| When reviewing an architecture what should you assess first | Your business objectives and how well they align with the solution |
| Where can you find detailed guidance on the pillars | AWS Well-Architected Tool and official AWS documentation |
| Which AWS services help improve reliability | Services like Amazon Route 53 AWS Auto Scaling and Amazon RDS |
| Why is it important to have a Well-Architected Review | To identify gaps reduce risk and drive continuous improvement |
| Why is the security pillar important | Ensures the confidentiality integrity and availability of data and systems |
This deck covers the five pillars of the AWS Well-Architected Framework, including operational excellence, security, reliability, performance efficiency, and cost optimization, essential for designing robust AWS architectures.