Amazon Web Services SAA-C03 Exam With Confidence Using Practice Dumps

EC2 Account Attributes: Amazon EC2 allows you to set account attributes to automatically encrypt new EBS volumes. This ensures that all new volumes created in your account are encrypted by default.

Configuration Steps:

Go to the EC2 Dashboard.

Select " Account Attributes " and then " EBS encryption " .

Enable default EBS encryption and select the default AWS KMS key or a customer-managed key.

Prevention of Unencrypted Volumes: By setting this account attribute, you ensure that it is not possible to create unencrypted EBS volumes, thereby enforcing compliance with security requirements.

Operational Efficiency: This solution requires minimal configuration changes and provides automatic enforcement of encryption policies, reducing operational overhead.

The requirement has three key elements: high availability with automatic recovery, separation of transactional and analytical workloads, and acceptable reporting lag up to 4 hours. The clean AWS-native pattern for isolating heavy read/reporting traffic from transactional writes in RDS for MySQL is to use read replicas and direct reporting queries to the replica endpoint(s).

Option C meets these requirements well. The primary RDS for MySQL instance handles transactional traffic (reads/writes). One or more RDS read replicas asynchronously replicate data from the primary. Because replication is asynchronous, some lag is expected; the requirement explicitly tolerates up to a 4-hour lag, which fits the read replica model. Directing batch reporting and analytical queries to a replica prevents those expensive queries from consuming CPU, memory, and I/O on the primary, thereby protecting interactive user performance. Deploying replicas across multiple Availability Zones also improves availability of the reporting tier and reduces the risk that an AZ issue prevents reporting access.

Option A is incorrect because a standard Multi-AZ DB instance uses a synchronous standby that is not readable and is intended for failover, not for serving analytical queries. Option B describes a Multi-AZ DB cluster deployment, which does provide readable standbys in some RDS engines; however, for the classic RDS MySQL exam pattern, the most direct and widely used method to isolate analytics is read replicas. Option D creates a nightly snapshot-based read-only copy; this increases operational complexity, can result in stale data for most of the day, and introduces provisioning delays, which is unnecessary when replicas provide continuous near-real-time copies.

Therefore, C is the best fit because it provides HA for the primary, isolates reporting reads to replicas, and meets the allowed replication lag requirement.

Comprehensive and Detailed Step-by-Step Explanation:

The goal is totransfer 500 GB dailyfrom multiple global locationsquicklyintoa single S3 bucketwhile keeping operational complexity low.

Option A:✅

Turn on S3 Transfer Acceleration on the destination S3 bucket. Use multipart uploads to directly upload site data to the destination S3 bucket.

S3 Transfer Acceleration (S3-TA)allowsfasterglobal uploads by routing traffic throughAmazon CloudFront’s globally distributed edge locations.

Multipart uploadsimprove efficiency bybreaking large filesinto smaller parts, transferring them in parallel.

Low operational complexity: No need for additional resources or manual replication.

Why is this best?It ensureshigh-speed transferswhileminimizing complexity.