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

The simplest and most efficient way to avoid hardcoding configuration such as a DynamoDB table name is to use Lambda environment variables. Environment variables are designed for runtime configuration and allow changing values without updating application code logic. The developer can store the table name in an environment variable (for example, TABLE_NAME) and read it from the runtime environment using the standard language method (such as os.environ in Python, process.env in Node.js, etc.).

This approach has very low operational overhead: updating the table name becomes a configuration change (in the Lambda console, IaC templates, or CI/CD pipeline) rather than a code change. It also keeps deployment packages stable and avoids unnecessary dependencies.

Option B is not suitable because /tmp is ephemeral storage that can be cleared between invocations and is not intended for configuration management.

Option C is heavier than necessary. Lambda layers are great for shared libraries and dependencies, but using a layer to store a single changing table name is awkward and forces a layer update and function reconfiguration when the value changes.

Option D does not solve the problem because a global variable is still set in the code. If the table name changes, the code must still be modified and redeployed.

Therefore, storing the table name in a Lambda environment variable is the most efficient solution.

To begin using AWS X-Ray, the team must (1) instrument the application to emit trace segments/subsegments and (2) ensure there is a component that can send trace data to the X-Ray service.

Instrumenting code is typically done with the AWS X-Ray SDK (language-specific). This adds tracing to inbound requests and downstream calls, creates segments/subsegments, and attaches annotations/metadata. That corresponds to Option C.

For many compute environments (especially EC2, ECS on EC2, and on-prem servers), the application sends trace data via the X-Ray daemon/agent running locally. The daemon batches segments and forwards them to the X-Ray service endpoint. That corresponds to Option D.

Option B is helpful after traces exist (using the X-Ray console or CloudWatch ServiceLens), but it is not a prerequisite to “begin using” X-Ray.

Option A is unrelated. X-Ray does not require SQS for instrumentation output.

Option E is incorrect because X-Ray stores trace data in its managed backend; you do not create a DynamoDB table for trace logs.

Therefore, the team needs to instrument the code with the X-Ray SDK and install/run the X-Ray agent/daemon on the servers where the application runs.