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

Unpredictable Lambda traffic can create a “connection storm” against a relational database because each concurrent Lambda invocation may open its own database connection. Relational engines like PostgreSQL have finite connection capacity, and excessive connections can degrade performance, increase latency, and exhaust database resources. Amazon RDS Proxy is designed to address this by pooling and reusing database connections, multiplexing many application requests over a smaller number of established database connections. This helps keep database performance more predictable under spiky, highly concurrent workloads such as Lambda.

Because the database is a private RDS for PostgreSQL instance, the Lambda functions must run with network access to the VPC subnets and security groups that can reach the database and proxy. Therefore, deploying the Lambda functions inside a VPC and pointing the database client to the RDS Proxy endpoint is the correct operational pattern. RDS Proxy also provides benefits like improved failover behavior handling and centralizing credential management integration patterns (commonly with IAM authentication and/or Secrets Manager), further reducing operational risk.

Option A uses a custom endpoint, which does not solve the fundamental connection scaling problem; it’s not a connection pooler. Option C and D place Lambda outside the VPC, which will not work for a private database that has no public connectivity path. Even if connectivity were possible, D would still be incomplete because you’d need private networking to reach the proxy.

Therefore, B best meets the requirement by introducing managed connection pooling via RDS Proxy and ensuring private network reachability by running Lambda in the VPC.

Storage Gateway Volume Gateway (Cached Volumes): This configuration allows you to store your primary data in Amazon S3 while retaining frequently accessed data locally in a cache for low-latency access.

Low-Latency Access: Frequently accessed data is cached locally on-premises, providing low-latency access while the less frequently accessed data is stored cost-effectively in Amazon S3.

Implementation:

Deploy a Storage Gateway appliance on-premises or in a virtual environment.

Configure it as a volume gateway with cached volumes.

Create volumes and configure your applications to use these volumes.

Minimal Infrastructure Changes: This solution integrates seamlessly with existing on-premises infrastructure, requiring minimal changes and reducing dependency on on-premises storage servers.