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

The requirements describe a real-time streaming use case where multiple processing applications must read the same stream in parallel, each must be able to resume processing after interruptions without data loss, and the system should support adding new processors with minimal duplication. Amazon Kinesis Data Streams (KDS) is purpose-built for this pattern.

With Kinesis Data Streams, producers write records to a stream that is split into shards. Multiple consumer applications can independently read from the stream using separate consumer groups (for example, using Kinesis Client Library). Each consumer maintains its own checkpoint (sequence number position), which allows it to resume from the last processed record after a restart or failure. This directly meets the “resume without losing data” requirement.

KDS also supports a configurable retention period (commonly 24 hours by default, extendable), enabling replay and recovery without forcing producers to re-send data or duplicating messages for each processor. Adding new consumers is straightforward: a new processor can begin reading the existing stream (from latest or from a trim horizon), which minimizes duplication compared to fan-out duplication patterns.

Why the others don’t fit:

SQS is a queue, not a stream. Multiple consumers typically compete for messages rather than all consuming the same messages independently, and duplication is required if multiple apps must process the same data.

Kinesis Data Firehose is primarily for delivery to destinations (S3, Redshift, OpenSearch) and not designed for multiple real-time parallel consumers with replay semantics.

EventBridge is event routing with limited replay/resume semantics compared to KDS and is not intended for high-throughput stream processing with per-consumer checkpoints.

Therefore, Amazon Kinesis Data Streams satisfies all requirements.

Requirement Summary:

Orders are being processed more than once

Need to prevent duplicate processing

Looking for least implementation effort

Key Concept:

Lambda + Event-driven patterns can occasionally result in duplicate invocations (at-least-once delivery model)

You need idempotency (i.e., prevent repeated processing of same event)

Evaluate Options:

A. Use DynamoDB for de-duplication

Simple and widely used approach

Store a unique orderId as the primary key

Before processing, check if order exists

If yes → skip

If no → process and store the ID

Minimal code changes required

B. ECS + Step Functions

Overkill for basic de-duplication

Adds significant complexity

C. Retry logic with fixed delay

Doesn ' t prevent duplication — makes it worse

Retrying might trigger the same message again

D. Athena to identify duplicates

Reactive solution, not preventative

Not suitable for real-time event de-duplication

Lambda idempotency:

Using DynamoDB for idempotent design:

The correct answer is C because the requirement is for a live feed of log events in near real time , filtered to show only lines that begin with “ERROR.” The live tail feature for AWS Lambda and CloudWatch Logs is specifically intended for this kind of operational debugging. It allows developers to watch logs as they are generated and apply filtering so they can focus only on relevant messages during active troubleshooting.

This is particularly suitable because the function is already in production , and the company wants immediate visibility into timeout-related issues without waiting for a full batch of logs to accumulate. With live tail and a filter expression for ERROR , the developer can observe only the important log lines as new invocations happen, which speeds up root-cause analysis.

Option A is not the best answer because CloudWatch Logs Insights is powerful for querying logs, but it is primarily used for searching and analyzing logs after they have been collected, not as a continuous near-real-time live stream. Option B is incorrect because a subscription filter is used to forward logs to another destination such as Lambda, Kinesis, or Firehose; it is not the simplest way to give an operator a live interactive filtered view. A metric filter also creates metrics from log patterns but does not present the actual live log lines for review. Option D is incorrect because Amazon Athena is not used directly for querying CloudWatch Logs in real-time operational troubleshooting.

Therefore, the best solution is to use live tail with an ERROR filter to inspect relevant Lambda log events as they occur.