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

AWS AppConfig Feature Flags are designed to release features safely with minimal code changes. The lowest operational overhead approach is to use a single feature flag and configure it to deliver the feature to a percentage of users through built-in targeting rules and variants.

With option C, the developer creates one AppConfig feature flag and defines a variant that represents the new feature behavior (for example, enabled=true or a “newExperience” variant). Then the developer creates a rule in AppConfig to target 15% of users. AppConfig feature flags support rules that can evaluate attributes (such as user IDs or other contextual attributes supplied by the application) and apply percentage-based rollout. This avoids building and maintaining custom rollout logic in the application.

Option A and D both require implementing and maintaining custom traffic splitting in code, which increases complexity and operational burden, and risks inconsistent behavior across clients/services.

Option B adds extra configuration overhead and complexity by managing multiple feature flags for “groups” instead of using a single flag with a variant and rule. A single flag with variants is the clean, scalable pattern.

Therefore, create one AppConfig feature flag, define a variant, and configure a rule to target 15% of users.

Requirement Summary:

Trigger an AWS Step Functions state machine (test execution)

Only when a specific AWS CloudFormation stack is deployed

Option A: Create a Lambda function to invoke the state machine

Valid approach: Lambda can be used as an intermediary trigger for Step Functions using the SDK (e.g., StartExecution API).

Offers flexibility (custom filtering, additional logic).

Option B: Create EventBridge rule filtering on UPDATE_IN_PROGRESS

Incorrect: UPDATE_IN_PROGRESS triggers before the stack is fully deployed.

You need to trigger after deployment, such as UPDATE_COMPLETE or CREATE_COMPLETE.

Option C: EventBridge Pipes with Lambda target filtering on UPDATE_IN_PROGRESS

Incorrect for same reason as B (wrong timing).

Also, EventBridge Pipes are not necessary here if you're using rules directly.

Option D: Pipe with EventBridge Rule as source and Step Functions as target

Invalid setup: EventBridge Pipes use event sources, not rules, as input.

This configuration is unsupported.

Option E: Add the state machine as a target of the EventBridge rule

Direct and low-overhead approach.

EventBridge natively supports Step Functions as a target.

You can trigger the state machine without a Lambda if the filter matches (e.g., ResourceStatus = CREATE_COMPLETE, with the correct StackId).

Step Functions as EventBridge target:

EventBridge CloudFormation events:

StartExecution API:

Requirement Summary:

DynamoDB Provisioned Mode

ProvisionedThroughputExceededException error occurring

App hosted on a small burstable EC2 instance

Option A: Move to a larger EC2 instance

May improve local performance, but does not solve DynamoDB provisioned throughput limits.

Option B: Increase DynamoDB RCUs

Valid: This directly increases the read throughput capacity of the table.

Helps handle more traffic and reduce throughput exceptions.

Option C: Reduce frequency via exponential backoff

Best practice: Using exponential backoff and jitter reduces request pressure and spreads retries out to avoid spiking.

Option D: Increase frequency of retries by reducing delay

Opposite of best practice. Increases load, worsening the issue.

Option E: Change to on-demand mode

Also valid in general, but question is scoped around provisioned capacity.

Since minimizing cost or workload type isn't mentioned, and scaling the existing model is the focus, prefer B and C.

ProvisionedThroughputExceededException:

Exponential backoff:

Capacity modes: