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

When multiple Lambda functions must execute in a defined sequence as part of a workflow (order processing → payment → inventory → fulfillment, etc.), the AWS service designed to coordinate and orchestrate serverless workflows is AWS Step Functions.

Option C is the least operational overhead because Step Functions provides a managed state machine that invokes Lambda functions in an explicit order with built-in support for retries, timeouts, error handling, branching, and state passing between steps. The developer defines the workflow declaratively (Amazon States Language) and Step Functions ensures the sequence is enforced consistently.

Option A (SQS) is not a workflow orchestrator. Ensuring strict sequencing would require custom coordination logic, state tracking, and careful handling of retries and ordering—more code and complexity (and standard SQS does not guarantee strict order).

Option B (SNS) fans out events and is not designed for sequential orchestration.

Option D (EventBridge Scheduler) can schedule invocations at times, but it does not coordinate multi-step workflows with dependencies and conditional transitions.

To reduce the time it takes for new Auto Scaling instances to become ready, the most effective optimization is to bake the time-consuming installation and configuration steps into a custom AMI. By creating a prebuilt AMI that already contains the application binaries, dependencies, and baseline configuration, new instances start from an image that is already near “ready to serve.” This minimizes lengthy bootstrapping and significantly shortens the time required to pass ALB health checks and enter service. Therefore, creating a prebuilt AMI (B) is a primary performance optimization for faster scaling events and lower deployment variability.

After creating the AMI, the Auto Scaling group must actually use it. Because the infrastructure is managed with AWS CloudFormation, the developer should update the launch template resource (or launch configuration equivalent) in the CloudFormation template to reference the new AMI ID. This ensures that all newly launched instances use the optimized image consistently and that the change is tracked and repeatable as part of infrastructure as code. That is option C.

The other options are less optimal for the stated goal. Installing and configuring the app at launch time via Systems Manager Run Command (D) or CloudFormation helper scripts (E) still performs the expensive work during instance initialization, which prolongs launch time and can create variance (for example, dependency download time, repo availability, or transient network slowness). Option A (Marketplace AMI) could help only if a suitable prebuilt image exists for the exact custom application—which is unlikely for a proprietary application—and it also reduces control over the build and hardening process compared to maintaining an internal golden AMI.

Therefore, the best combination is B (bake the app into a custom AMI) and C (update the CloudFormation-managed launch template to use that AMI).