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Amazon Web Services ANS-C01 Exam With Confidence Using Practice Dumps

Exam Code:
ANS-C01
Exam Name:
Amazon AWS Certified Advanced Networking - Specialty
Certification:
AWS Certified Specialty
Vendor:
Amazon Web Services
Questions:
153
Last Updated:
Mar 7, 2025
Exam Status:
Stable
Amazon Web Services ANS-C01

ANS-C01: AWS Certified Specialty Exam 2025 Study Guide Pdf and Test Engine

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Amazon AWS Certified Advanced Networking - Specialty Questions and Answers

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Question 1

A company has deployed a web application on AWS. The web application uses an Application Load Balancer (ALB) across multiple Availability Zones. The targets of the ALB are AWS Lambda functions. The web application also uses Amazon CloudWatch metrics for monitoring.

Users report that parts of the web application are not loading properly. A network engineer needs to troubleshoot the problem. The network engineer enables access logging for the ALB.

What should the network engineer do next to determine which errors the ALB is receiving?

Options:

A.

Send the logs to Amazon CloudWatch Logs. Review the ALB logs in CloudWatch Insights to determine which error messages the ALB is receiving.

B.

Configure the Amazon S3 bucket destination. Use Amazon Athena to determine which error messages the ALB is receiving.

C.

Configure the Amazon S3 bucket destination. After Amazon CloudWatch Logs pulls the ALB logs from the S3 bucket automatically, review the logs in CloudWatch Logs to determine which error messages the ALB is receiving.

D.

Send the logs to Amazon CloudWatch Logs. Use the Amazon Athena CloudWatch Connector to determine which error messages the ALB is receiving.

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Question 2

A company has an application that runs on premises. The application needs to communicate with an application that runs in a VPC on AWS. The communication between the applications must be encrypted and must use private IP addresses. The communication cannot travel across the public internet.

The company has established a 1 Gbps AWS Direct Connect connection between the on-premises location and AWS.

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

Options:

A.

Configure a private VIF on the Direct Connect connection. Associate the private VIF with the VPC's virtual private gateway. Set up an AWS Site-to-Site VPN private IP VPN connection to the virtual private gateway.

B.

Create a transit gateway. Configure a transit VIF on the Direct Connect connection. Associate the transit VIF with a Direct Connect gateway. Associate the Direct Connect gateway with a new transit gateway. Set up an AWS Site-to-Site VPN private IP VPN connection to the transit gateway.

C.

Configure a public VIF on the Direct Connect connection. Associate the public VIF with a Direct Connect gateway. Associate the Direct Connect gateway with a new transit gateway. Set up an AWS Site-to-Site VPN private IP VPN connection to the transit gateway.

D.

Create a transit gateway. Configure a transit VIF on the Direct Connect connection. Associate the transit VIF with a Direct Connect gateway. Associate the Direct Connect gateway with a new transit gateway. Set up a third-party firewall in a new VPC that is attached to the transit gateway. Set up a VPN connection to the third-party firewall.

Question 3

A network engineer needs to standardize a company's approach to centralizing and managing interface VPC endpoints for private communication with AWS services. The company uses AWS Transit Gateway for inter-VPC connectivity between AWS accounts through a hub-and-spoke model. The company's network services team must manage all Amazon Route 53 zones and interface endpoints within a shared services AWS account. The company wants to use this centralized model to provide AWS resources with access to AWS Key Management Service (AWS KMS) without sending traffic over the public internet.

What should the network engineer do to meet these requirements?

Options:

A.

In the shared services account, create an interface endpoint for AWS KMS. Modify the interface endpoint by disabling the private DNS name. Create a private hosted zone in the shared services account with an alias record that points to the interface endpoint. Associate the private hosted zone with the spoke VPCs in each AWS account.

B.

In the shared services account, create an interface endpoint for AWS KMS. Modify the interface endpoint by disabling the private DNS name. Create a private hosted zone in each spoke AWS account with an alias record that points to the interface endpoint. Associate each private hosted zone with the shared services AWS account.

C.

In each spoke AWS account, create an interface endpoint for AWS KMS. Modify each interface endpoint by disabling the private DNS name. Create a private hosted zone in each spoke AWS account with an alias record that points to each interface endpoint. Associate each private hosted zone with the shared services AWS account.

D.

In each spoke AWS account, create an interface endpoint for AWS KMS. Modify each interface endpoint by disabling the private DNS name. Create a private hosted zone in the shared services account with an alias record that points to each interface endpoint. Associate the private hosted zone with the spoke VPCs in each AWS account.

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