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Amazon Web Services Data-Engineer-Associate Exam With Confidence Using Practice Dumps

Exam Code:
Data-Engineer-Associate
Exam Name:
AWS Certified Data Engineer - Associate (DEA-C01)
Questions:
302
Last Updated:
Jul 3, 2026
Exam Status:
Stable
Amazon Web Services Data-Engineer-Associate

Data-Engineer-Associate: AWS Certified Data Engineer Exam 2025 Study Guide Pdf and Test Engine

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AWS Certified Data Engineer - Associate (DEA-C01) Questions and Answers

Question 1

A food delivery company manages thousands of deliveries simultaneously. Each delivery vehicle transmits real-time telemetry data as JSON events. The company wants to accelerate downstream analytics and simplify data processing. The company needs to flatten the telemetry data and then store the data in an Amazon S3 bucket.

Which solution will meet these requirements with the LEAST latency?

Options:

A.

Create an Amazon Data Firehose delivery stream that ingests real-time telemetry data, automatically flattens the data, and delivers the data to the S3 bucket.

B.

Use Amazon Kinesis Data Streams to ingest real-time JSON events. Configure an AWS Glue streaming job to read, flatten, and write the data to Amazon S3.

C.

Send the real-time JSON events as messages to an Amazon Simple Queue Service (Amazon SQS) queue. Schedule an AWS Glue batch job by using a cron expression. Configure the batch job to read, flatten, and write the data to Amazon S3.

D.

Use Amazon Kinesis Data Streams to ingest real-time JSON events. Use the Amazon Athena flatten function to flatten the JSON data and write the data to the S3 bucket.

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Question 2

A security company stores IoT data that is in JSON format in an Amazon S3 bucket. The data structure can change when the company upgrades the IoT devices. The company wants to create a data catalog that includes the IoT data. The company ' s analytics department will use the data catalog to index the data.

Which solution will meet these requirements MOST cost-effectively?

Options:

A.

Create an AWS Glue Data Catalog. Configure an AWS Glue Schema Registry. Create a new AWS Glue workload to orchestrate the ingestion of the data that the analytics department will use into Amazon Redshift Serverless.

B.

Create an Amazon Redshift provisioned cluster. Create an Amazon Redshift Spectrum database for the analytics department to explore the data that is in Amazon S3. Create Redshift stored procedures to load the data into Amazon Redshift.

C.

Create an Amazon Athena workgroup. Explore the data that is in Amazon S3 by using Apache Spark through Athena. Provide the Athena workgroup schema and tables to the analytics department.

D.

Create an AWS Glue Data Catalog. Configure an AWS Glue Schema Registry. Create AWS Lambda user defined functions (UDFs) by using the Amazon Redshift Data API. Create an AWS Step Functions job to orchestrate the ingestion of the data that the analytics department will use into Amazon Redshift Serverless.

Question 3

A company uses an Amazon Redshift provisioned cluster as its database. The Redshift cluster has five reserved ra3.4xlarge nodes and uses key distribution.

A data engineer notices that one of the nodes frequently has a CPU load over 90%. SQL Queries that run on the node are queued. The other four nodes usually have a CPU load under 15% during daily operations.

The data engineer wants to maintain the current number of compute nodes. The data engineer also wants to balance the load more evenly across all five compute nodes.

Which solution will meet these requirements?

Options:

A.

Change the sort key to be the data column that is most often used in a WHERE clause of the SQL SELECT statement.

B.

Change the distribution key to the table column that has the largest dimension.

C.

Upgrade the reserved node from ra3.4xlarqe to ra3.16xlarqe.

D.

Change the primary key to be the data column that is most often used in a WHERE clause of the SQL SELECT statement.