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:

879

Last Updated:

Jun 4, 2026

Exam Status:

Stable

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 company runs multiple applications in multiple AWS accounts within the same organization in AWS Organizations. A content management system (CMS) runs on Amazon EC2 instances in a VPC. The CMS needs to access shared files from an Amazon Elastic File System (Amazon EFS) file system that is deployed in a separate AWS account. The EFS account is in a separate VPC.

Which solution will meet this requirement?

Options:

Mount the EFS file system on the EC2 instances by using the EFS Elastic IP address.

Enable VPC sharing between the two accounts. Use the EFS mount helper to mount the file system on the EC2 instances. Redeploy the EFS file system in a shared subnet.

Configure AWS Systems Manager Run Command to mount the EFS file system on the EC2 instances.

Install the amazon-efs-utils package on the EC2 instances. Add the mount target in the efs-config file. Mount the EFS file system by using the EFS access point.

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Question 2

A company is migrating some of its applications to AWS. The company wants to migrate and modernize the applications quickly after it finalizes networking and security strategies. The company has set up an AWS Direct Connect connection in a central network account.

The company expects to have hundreds of AWS accounts and VPCs in the near future. The corporate network must be able to access the resources on AWS seamlessly and also must be able to communicate with all the VPCs. The company also wants to route its cloud resources to the internet through its on-premises data center.

Which combination of steps will meet these requirements? (Select THREE.)

Options:

Create a Direct Connect gateway in the central account. In each of the accounts, create an association proposal by using the Direct Connect gateway and the account ID for every virtual private gateway.

Create a Direct Connect gateway and a transit gateway in the central network account. Attach the transit gateway to the Direct Connect gateway by using a transit VIF.

Provision an internet gateway. Attach the internet gateway to subnets. Allow internet traffic through the gateway.

Share the transit gateway with other accounts. Attach VPCs to the transit gateway.

Provision VPC peering as necessary.

Provision only private subnets. Open the necessary route on the transit gateway and customer gateway to allow outbound internet traffic from AWS to flow through NAT services that run in the data center.

Answer:

B, D, F

Explanation:

For a large-scale multi-account AWS environment with many VPCs and centralized Direct Connect, AWS recommends using a Transit Gateway (TGW) architecture combined with a Direct Connect gateway (DXGW). This setup allows scalable, centralized connectivity between on-premises and multiple VPCs across accounts.

Step B: Creating a Direct Connect gateway and Transit Gateway in a central network account and connecting them via a transit VIF enables the on-premises network to access all connected VPCs.

Step D: Sharing the transit gateway with other accounts via AWS Resource Access Manager (RAM) allows the central TGW to attach VPCs in multiple accounts, simplifying multi-account connectivity.

Step F: To route cloud resources’ internet traffic back through the on-premises data center (for centralized egress), provisioning only private subnets and routing outbound internet traffic through NAT or firewall services in the data center is necessary. This requires configuring transit gateway and customer gateway routes appropriately.

Option A is partially correct in the use of Direct Connect gateway but association proposals are not scalable for hundreds of VPCs and accounts compared to transit gateway. Option C (internet gateway) is irrelevant here as traffic egress is required via on-premises data center, not directly to the internet. Option E (VPC peering) is not scalable for hundreds of VPCs.

[References:, AWS Transit Gateway Overview (https://docs.aws.amazon.com/vpc/latest/tgw/what-is-transit-gateway.html), AWS Direct Connect Gateway (https://docs.aws.amazon.com/directconnect/latest/UserGuide/direct-connect-gateways.html), Centralized Egress Architecture with Transit Gateway (https://aws.amazon.com/blogs/networking-and-content-delivery/how-to-set-up-centralized-egress-with-transit-gateway/), AWS Well-Architected Framework — Reliability Pillar (https://d1.awsstatic.com/whitepapers/architecture/AWS_Well-Architected_Framework.pdf), , , , ]

Question 3

A company runs container applications by using Amazon Elastic Kubernetes Service (Amazon EKS) and the Kubernetes Horizontal Pod Autoscaler. The workload is not consistent throughout the day. A solutions architect notices that the number of nodes does not automatically scale out when the existing nodes have reached maximum capacity in the cluster, which causes performance issues.

Which solution will resolve this issue with the LEAST administrative overhead?

Options:

Scale out the nodes by tracking the memory usage.

Use the Kubernetes Cluster Autoscaler to manage the number of nodes in the cluster.

Use an AWS Lambda function to resize the EKS cluster automatically.

Use an Amazon EC2 Auto Scaling group to distribute the workload.

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

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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