Advanced Design VMware NSX-T Data Center

Here you have the best VMWare 3V0-42.20 practice exam questions

  • You have 57 total questions to study from
  • Each page has 5 questions, making a total of 12 pages
  • You can navigate through the pages using the buttons at the bottom
  • This questions were last updated on November 21, 2024
Question 1 of 57

Which is a family of solutions for data center designs that span compute, storage, networking, and management, serving as a blueprint for a customer's Software

Defined Data Center (SDDC) implementations? (Choose the best answer.)

    Correct Answer: B

    VMware Validated Design is a family of solutions designed for data center designs that cover compute, storage, networking, and management. It serves as a comprehensive blueprint for implementing Software-Defined Data Center (SDDC) solutions, ensuring that the design and deployment meet VMware's best practices and guidelines.

Question 2 of 57

Which three IPv6 features are supported in an NSX-T Data Center design? (Choose three.)

    Correct Answer: B, E, F

    The three IPv6 features supported in an NSX-T Data Center design are IPv6 static routing, IPv6 Distributed Firewall, and IPv6 VXLAN. IPv6 static routing is a fundamental routing method supported by NSX-T. The IPv6 Distributed Firewall feature allows the implementation of security policies for IPv6 traffic. Lastly, while traditional VXLAN does not inherently support IPv6, NSX-T has incorporated support for IPv6 VXLAN. IPv6 OSPF is not a typical feature in NSX-T designs, IPv6 switch security is a vague term that doesn't specify a clear feature, and IPv6 DNS is generally handled outside the scope of NSX-T designs.

Question 3 of 57

An architect is helping an organization with the Physical Design of an NSX-T Data Center solution.

This information was gathered during a workshop:

✑ Some workloads should be moved to a Cloud Provider.

✑ Extend network's VLAN or VNI across sites on the same broadcast domain.

✑ Enable VM mobility use cases such as migration and disaster recovery without IP address changes.

✑ Support 1500 byte MTU between sites.

Which selection should the architect include in their design? (Choose the best answer.)

    Correct Answer: D

    An L2 VPN allows the extension of Layer 2 networks across different sites, effectively creating a single broadcast domain. This enables VM mobility use cases without the need for IP address changes and supports seamless migration and disaster recovery scenarios. Additionally, it supports the requirement for a 1500 byte MTU between sites, ensuring compatibility across the network.

Question 4 of 57

An architect is helping an organization with the Physical Design of an NSX-T Data Center solution.

This information was gathered during a workshop:

✑ There are six hosts and hardware has already been purchased.

✑ Customer is planning a collapsed Management/Edge/Compute cluster.

✑ Each host has two 10Gb NICs connected to a pair of switches.

✑ There should be no single point of failure in any proposed design.

Which virtual switch design should the architect recommend to the organization? (Choose the best answer.)

    Correct Answer: C

    The virtual switch design that should be recommended involves creating an NSX-T Virtual Distributed Switch (N-VDS) for both Management VMKernel and overlay traffic and assigning both NICs. This approach ensures that there is no single point of failure by utilizing both available 10Gb NICs, which corresponds to redundancy and higher availability, aligning with the requirement that there should be no single point of failure in the proposed design.

Question 5 of 57

What selection is the key design benefit provided by a dedicated Edge Cluster VM or Bare Metal? (Choose the best answer.)

    Correct Answer: B

    A dedicated Edge Cluster VM or Bare Metal solution ensures predictable network performance because it eliminates contention for resources typically seen in a shared virtual environment. With dedicated hardware, the network services such as routing and firewalling can operate without interference from other workloads, leading to consistent performance and reliability. This predictability is crucial for applications that demand stable and reliable network performance.