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Amazon Web Services SAA-C03 Exam With Confidence Using Practice Dumps

Exam Code:
SAA-C03
Exam Name:
AWS Certified Solutions Architect - Associate (SAA-C03)
Certification:
AWS Certified Associate
Vendor:
Amazon Web Services
Questions:
670
Last Updated:
Jan 1, 2026
Exam Status:
Stable
Amazon Web Services SAA-C03

SAA-C03: AWS Certified Associate Exam 2025 Study Guide Pdf and Test Engine

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AWS Certified Solutions Architect - Associate (SAA-C03) Questions and Answers

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Question 1

A financial service company has a two-tier consumer banking application. The frontend serves static web content. The backend consists of APIs. The company needs to migrate the frontendcomponent to AWS. The backend of the application will remain on premises. The company must protect the application from common web vulnerabilities and attacks.

Which solution will meet these requirements with the LEAST operational overhead?

Options:

A.

Migrate the frontend to Amazon EC2 instances. Deploy an Application Load Balancer (ALB) in front of the instances. Use the instances to invoke the on-premises APIs. Associate AWS WAF rules with the instances.

B.

Deploy the frontend as an Amazon CloudFront distribution that has multiple origins. Configure one origin to be an Amazon S3 bucket that serves the static web content. Configure a second origin to route traffic to the on-premises APIs based on the URL pattern. Associate AWS WAF rules with the distribution.

C.

Migrate the frontend to Amazon EC2 instances. Deploy a Network Load Balancer (NLB) in front of the instances. Use the instances to invoke the on-premises APIs. Create an AWS Network Firewall instance. Route all traffic through the Network Firewall instance.

D.

Deploy the frontend as a static website based on an Amazon S3 bucket. Use an Amazon API Gateway REST API and a set of Amazon EC2 instances to invoke the on-premises APIs. Associate AWS WAF rules with the REST API and the S3 bucket.

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Question 2

A company needs to accommodate traffic for a web application that the company hosts on AWS, especially during peak usage hours.

The application uses Amazon EC2 instances as web servers, an Amazon RDS DB instance for database operations, and an Amazon S3 bucket to store transaction documents. The application struggles to scale effectively and experiences performance issues.

The company wants to improve the scalability of the application and prevent future performance issues. The company also wants to improve global access speeds to the transaction documents for the company's global users.

Which solution will meet these requirements?

Options:

A.

Place the EC2 instances in Auto Scaling groups to scale appropriately during peak usage hours. Use Amazon RDS read replicas to improve database read performance. Deploy an Amazon CloudFront distribution that uses Amazon S3 as the origin.

B.

Increase the size of the EC2 instances to provide more compute capacity. Use Amazon ElastiCache to reduce database read loads. Use AWS Global Accelerator to optimize the delivery of the transaction documents that are in the S3 bucket.

C.

Transition workloads from the EC2 instances to AWS Lambda functions to scale in response to the usage peaks. Migrate the database to an Amazon Aurora global database to provide cross-Region reads. Use AWS Global Accelerator to deliver the transaction documents that are in the S3 bucket.

D.

Convert the application architecture to use Amazon Elastic Container Service (Amazon ECS) containers. Configure a Multi-AZ deployment of Amazon RDS to support database operations. Replicate the transaction documents that are in the S3 bucket across multiple AWS Regions.

Question 3

A company is deploying a new application to a VPC on existing Amazon EC2 instances. The application has a presentation tier that uses an Auto Scaling group of EC2 instances. The application also has a database tier that uses an Amazon RDS Multi-AZ database.

The VPC has two public subnets that are split between two Availability Zones. A solutions architect adds one private subnet to each Availability Zone for the RDS database. The solutions architect wants to restrict network access to the RDS database to block access from EC2 instances that do not host the new application.

Which solution will meet this requirement?

Options:

A.

Modify the RDS database security group to allow traffic from a CIDR range that includes IP addresses of the EC2 instances that host the new application.

B.

Associate a new ACL with the private subnets. Deny all incoming traffic from IP addresses that belong to any EC2 instance that does not host the new application.

C.

Modify the RDS database security group to allow traffic from the security group that is associated with the EC2 instances that host the new application.

D.

Associate a new ACL with the private subnets. Deny all incoming traffic except for traffic from a CIDR range that includes IP addresses of the EC2 instances that host the new application.

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