Amazon Web Services DVA-C02 Exam With Confidence Using Practice Dumps

Amazon S3 automatically scales to handle high request rates, but request parallelism is optimized when objects are distributed across multiple prefixes. AWS documentation explains that S3 internally partitions data by key name, and distributing objects across multiple prefixes allows requests to be spread across multiple partitions.

When many GET requests target objects within the same prefix, they may contend for the same internal partition, limiting throughput. By designing object keys with multiple prefixes—such as including hashed or randomized components—applications can significantly increase parallel request handling.

Options A and D do not address S3 request partitioning. Global Accelerator improves network latency for supported endpoints but does not increase S3 request parallelism. Direct Connect improves network consistency but does not change how S3 scales requests internally. Option B worsens the problem by concentrating traffic into a single prefix.

Therefore, partitioning objects by prefixes is the correct and AWS-recommended solution.

This solution will meet the requirements by allowing the Lambda functions to access the DB cluster securely within the same VPC without crossing the public internet. The developer can configure a VPC endpoint for RDS in a private subnet and assign it to the Lambda functions. The developer can also configure a security group for the Lambda functions that allows inbound traffic from the DB cluster on port 3306 (MySQL). Option A is not optimal because it will expose the DB cluster to public access, which may compromise its security and data integrity. Option B is not optimal because it will introduce additional latency and complexity to use an RDS database proxy for accessing the DB cluster from Lambda functions within the same VPC. Option C is not optimal because it will require additional costs and configuration to use a NAT gateway for accessing resources in private subnets from Lambda functions.

Amazon CloudFront is a global content delivery network (CDN) designed to deliver static and streaming content with low latency and high throughput . AWS documentation explicitly recommends CloudFront for media streaming and high-request-rate workloads.

By placing CloudFront in front of Amazon S3, video content is cached at edge locations close to end users. This dramatically reduces latency, minimizes buffering, and offloads request volume from the S3 bucket. CloudFront is built to handle sudden traffic spikes and supports tens of thousands of requests per second per edge location.

Route 53 routing policies (Option A) control DNS resolution but do not cache content. Cross-Region Replication (Option B) improves regional availability but does not provide edge caching or streaming optimization. S3 Intelligent-Tiering (Option C) optimizes storage cost, not performance.

Therefore, using CloudFront with S3 as the origin provides the largest and most immediate performance improvement.