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ANS-C01 Exam Dumps : Amazon AWS Certified Advanced Networking - Specialty

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Amazon Web Services ANS-C01 Exam Dumps FAQs

Q. # 1: What is the AWS Certified Advanced Networking Specialty (ANS?C01) Exam?

The ANS?C01 exam is an advanced certification offered by Amazon Web Services (AWS) that validates expertise in designing, implementing, and managing complex AWS and hybrid networking architectures. It is intended for professionals with deep networking knowledge and hands?on AWS experience.

Q. # 2: Who is the target audience for the ANS?C01 Exam?

The ANS-C01 exam is designed for networking specialists, cloud architects, and engineers with 5+ years of networking experience and at least 2 years of hands?on AWS cloud experience.

Q. # 3: What topics are covered in the ANS?C01 Exam?

The ANS-C01 exam covers:

  • Network Design

  • Network Implementation

  • Network Management & Operations

  • Network Security, Compliance, and Governance

Q. # 4: How many questions are in the ANS?C01 Exam?

The Amazon Web Services ANS-C01 exam typically includes 65 multiple?choice and multiple?response questions.

Q. # 5: What is the ANS-C01 Exam duration?

Candidates are given 170 minutes to complete the ANS?C01 exam.

Q. # 6: What is the difference between ANS?C01 and AXS?C01?

The ANS?C01 validates expertise in designing and managing complex cloud and hybrid networks, whereas Amazon Web Services MLS?C01 validates skills in building, training, and deploying machine learning solutions on AWS.

Q. # 7: Can I retake the ANS?C01 Exam if I fail?

Yes, you can retake the exam after 14 days. There is no limit to the number of attempts, but each requires a new registration fee.

Q. # 8: How can CertsTopics help with ANS?C01 preparation?

CertsTopics provides ANS-C01 PDF study guides, exam dumps, questions and answers, practice tests, and a testing engine with a success guarantee. Purchasing is simple—just add to cart, proceed with payment, and get instant access.

Q. # 9: What career benefits come with ANS?C01 Certification?

Certified professionals gain recognition as AWS networking experts, opening opportunities for roles such as Cloud Network Engineer, Solutions Architect, and Security Specialist, with higher salary potential.

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Amazon AWS Certified Advanced Networking - Specialty Questions and Answers

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Question 1

A company runs workloads in multiple VPCs in the us-east-1 Region. The VPCs are connected to a transit gateway. An AWS Direct Connect connection provides private connectivity between a data center that is in the US and the transit gateway. A Direct Connect gateway is associated with the transit gateway.

The company has recently opened a new office location in London. The company plans to launch cloud services in multiple VPCs in the eu-west-2 Region. Users in the new London office must have private access to the workloads that run in us-east-1. Users in the US data center must have access to any workloads that are created in eu-west-2. A network engineer must implement a flexible solution that provides users the required access. The solution must be able to accommodate future growth.

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

Options:

A.

Create an AWS Site-to-Site VPN connection from the London office to the Direct Connect gateway in us-east-1.

B.

Establish a new Direct Connect connection for the London office. Attach the new Direct Connect connection to the existing Direct Connect gateway. Create a transit gateway in eu-west-2. Associate the new transit gateway with the existing Direct Connect gateway. Create a peering connection between the transit gateways in us-east-1 and eu-west-2.

C.

Create an AWS Site-to-Site VPN connection from the London office to each of the VPCs that are in us-east-1.

D.

Establish a new AWS Direct Connect connection for the London office Create a new Direct Connect gateway and a transit gateway in eu-west-2. Attach the new Direct Connect connection to the new Direct Connect gateway. Create a peering connection between the transit gateways in us-east-1 and eu-west-2.

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Question 2

A company has an AWS Site-to-Site VPN connection between AWS and its branch office. A network engineer is troubleshooting connectivity issues that the connection is experiencing. The VPN connection terminates at a transit gateway and is statically routed. In the transit gateway route table, there are several static route entries that target specific subnets at the branch office.

The network engineer determines that the root cause of the issues was the expansion of underlying subnet ranges in the branch office during routine maintenance.

Which solution will solve this problem with the LEAST administrative overhead for future expansion efforts?

Options:

A.

Determine a supernet for the branch office. In the transit gateway route table, add an aggregate route that targets the VPN attachment. Replace the specific subnet routes in the transit gateway route table with the new supernet route.

B.

Create an AWS Direct Connect gateway and a transit VIF. Associate the Direct Connect gateway with the transit gateway. Create a propagation for the Direct Connect attachment to the transit gateway route table.

C.

Create a dynamically routed VPN connection on the transit gateway. Connect the dynamically routed VPN connection to the branch office. Create a propagation for the VPN attachment to the transit gateway route table. Remove the existing static VPN connection.

D.

Create a prefix list that contains the new subnets and the old subnets for the branch office. Remove the specific subnet routes in the transit gateway route table. Create a prefix list reference in the transit gateway route table.

Question 3

An IoT company sells hardware sensor modules that periodically send out temperature, humidity, pressure, and location data through the MQTT messaging protocol. The hardware sensor modules send this data to the company's on-premises MQTT brokers that run on Linux servers behind a load balancer. The hardware sensor modules have been hardcoded with public IP addresses to reach the brokers.

The company is growing and is acquiring customers across the world. The existing solution can no longer scale and is introducing additional latency because of the company's global presence. As a result, the company decides to migrate its entire infrastructure from on premises to the AWS Cloud. The company needs to migrate without reconfiguring the hardware sensor modules that are already deployed across the world. The solution also must minimize latency.

The company migrates the MQTT brokers to run on Amazon EC2 instances.

What should the company do next to meet these requirements?

Options:

A.

Place the EC2 instances behind a Network Load Balancer (NLB). Configure TCP listeners. Use Bring Your Own IP (BYOIP) from the on-premises network with the NLB.

B.

Place the EC2 instances behind a Network Load Balancer (NLB). Configure TCP listeners. Create an AWS Global Accelerator accelerator in front of the NLUse Bring Your Own IP (BYOIP) from the on-premises network with Global Accelerator.

C.

Place the EC2 instances behind an Application Load Balancer (ALB). Configure TCP listeners. Create an AWS Global Accelerator accelerator in front of the ALB. Use Bring Your Own IP (BYOIP) from the on-premises network with Global Accelerator

D.

Place the EC2 instances behind an Amazon CloudFront distribution. Use Bring Your Own IP (BYOIP) from the on-premises network with CloudFront.

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