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

The correct answer is C because reserved concurrency guarantees that a specific AWS Lambda function has access to a defined number of concurrent executions. In this scenario, the function normally runs correctly but occasionally receives a surge of up to 500 S3 object-created events per minute . Since each invocation runs for about 30 seconds , the function may need substantial concurrency during those bursts. Configuring reserved concurrency ensures that this function has dedicated execution capacity available during peak periods and is not affected by concurrency consumption from other functions in the account.

AWS documentation explains that reserved concurrency both sets the maximum concurrency for a function and reserves that capacity exclusively for the function. This is especially helpful when one function must continue operating reliably under burst traffic. Even though other functions are currently running as expected, reserved concurrency is the direct AWS mechanism to protect the processing function from account-level concurrency contention during spikes.

Option A is incorrect because the function already completes in about 30 seconds; changing timeout does not solve high-volume invocation scaling. Option B is not the best answer because adding a Lambda layer does not guarantee improved throughput or concurrency handling. Option D is incorrect because decreasing memory usually reduces available CPU and can make performance worse, which would increase the chance of delays or failures.

Therefore, the most effective approach is to configure reserved concurrency for the processing function so it can continue to run reliably during high-volume object upload periods.

This solution meets the requirements because it uses a PostgreSQL-compatible database that can secure and regularly rotate database credentials without requiring additional programming overhead. Amazon Aurora PostgreSQL is a relational database service that is compatible with PostgreSQL and offers high performance, availability, and scalability. AWS Secrets Manager is a service that helps you protect secrets needed to access your applications, services, and IT resources. You can store database credentials in AWS Secrets Manager and use them to access your Aurora PostgreSQL database. You can also enable automatic rotation of your secrets according to a schedule or an event. AWS Secrets Manager handles the complexity of rotating secrets for you, such as generating new passwords and updating your database with the new credentials. Using Amazon DynamoDB for the database will not meet the requirements because it is a NoSQL database that is not compatible with PostgreSQL. Using AWS Systems Manager Parameter Store for storing and rotating database credentials will require additional programming overhead to integrate with your database.

Why Option B is Correct:

Amazon S3 Standard provides immediate access to files and is cost-effective for files that need to be accessed within 5 minutes.

By adding the S3 location to the SQS queue, you avoid transferring large files directly, which is both more efficient and scalable.

Why Other Options are Incorrect:

Option A: S3 Glacier Deep Archive is designed for archival storage with retrieval times ranging from minutes to hours, which does not meet the 5-minute requirement.

Option C: Amazon EBS is designed for block storage attached to EC2 instances, which adds unnecessary complexity and cost.

Option D: SQS is not designed to handle large file content directly and has message size limits (256 KB).

AWS Documentation References:

Amazon S3 Overview

Amazon SQS Best Practices