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Free 2V0-33.22PSE Exam Braindumps (page: 11)

Page 10 of 33
PDF with 126 Questions

How much throughput does a Google Cloud VMware Engine private cloud network provide?

  1. 25 Gbps
  2. 40 Gbps
  3. 100 Gbps
  4. 10 Gbps

Answer(s): C

Explanation:

The throughput provided by a Google Cloud VMware Engine private cloud network is 100 Gbps. This allows for a high level of performance and scalability, and supports a variety of services and applications. Additionally, the private cloud network is secure and reliable, providing support for different authentication methods and encryption standards. 100Gb dedicated for cluster (vSAN + east-west) 4x mellanox connect-4 lx dual port 25GbE.



A cloud administrator is asked to validate a proposed internetworking design that will provide connectivity to a VMware Cloud on AWS environment from multiple company locations.
The following requirements must be met:
· Connectivity to the VMware Cloud on AWS environment must support high-throughput data transfer.
· Connectivity to the VMware Cloud on AWS environment must NOT have a single point of failure. · Any network traffic between on-premises company locations must be sent over a private IP address space.
Which design decisions should be made to meet these network connectivity requirements?

  1. · Configure a Direct Connect from headquarters to VMware Cloud on AWS.
    · Use a private VIF for this connection.

    · Configure a secondary, standby Direct Connect from headquarters using a public VIF.
    · Configure dual, redundant, policy-based IPsec VPN connections from each regional office to VMware Cloud on AWS.
    B
    · Configure a Direct Connect from headquarters to VMware Cloud on AWS.
    · Use a public VIF for this connection.
    · Configure a route-based IPsec VPN tunnel as a secondary method of connectivity from headquarters to VMware Cloud on AWS.
    · Configure dual, redundant, route-based IPsec VPN connections from each regional office to VMware Cloud on AWS.
  2. · Configure a Direct Connect from headquarters to VMware Cloud on AWS.
    · Use a private VIF for this connection.
    · Configure a route-based IPsec VPN tunnel as a secondary method of connectivity from headquarters to VMware Cloud on AWS, taking care to enable the "Use VPN as Backup to Direct Connect" option.
    · Configure dual, redundant, route-based IPsec VPN connections from each regional office to VMware Cloud on AWS.
  3. · Configure a Direct Connect from headquarters to VMware Cloud on AWS.
    · Use a private VIF for this connection.
    · Configure a policy-based IPsec VPN tunnel as a secondary method of connectivity from headquarters to VMware Cloud on AWS, taking care to enable the "Use VPN as Backup to Direct Connect" option.
    · Configure dual, redundant, policy-based IPsec VPN connections from each regional office to VMware Cloud on AWS.

Answer(s): C

Explanation:

Option C is the best design decision that meets the network connectivity requirements. Configuring a Direct Connect from headquarters to VMware Cloud on AWS with a private VIF will ensure high- throughput data transfer and eliminate the single point of failure. To ensure that all network traffic between on-premises company locations is sent over a private IP address space, a route-based IPsec VPN tunnel should be configured as a secondary method of connectivity from headquarters to VMware Cloud on AWS, taking care to enable the "Use VPN as Backup to Direct Connect" option. Finally, dual, redundant, route-based IPsec VPN connections should be configured from each regional office to VMware Cloud on AWS.

A route-based VPN creates an IPsec tunnel interface and routes traffic through it as dictated by the SDDC routing table. A route-based VPN provides resilient, secure access to multiple subnets.
When you use a route-based VPN, new routes are added automatically when new networks are created. https://docs.vmware.com/en/VMware-Cloud-on-AWS/services/com.vmware.vmc-aws-networking- security/GUID-5AF45CE6-FA53-45C0-83E5-25F8E3A055E9.html



A cloud administrator needs to create a secure connection over the Internet between an on- premises data center and a VMware Cloud software-defined data center (SDDC).
Which solution can accomplish this goal?

  1. VMware Site Recovery Manager
  2. VMware vRealize Network Insight
  3. VMware NSX
  4. VMware Cloud Director

Answer(s): C

Explanation:

VMware NSX is a network virtualization and security platform that provides a range of features for creating and managing virtual networks, including the ability to create secure connections over the Internet between on-premises data centers and VMware Cloud software-defined data centers (SDDCs). NSX allows you to create logical networks that are isolated from the underlying physical infrastructure, providing enhanced security and flexibility. With NSX, you can create secure, encrypted connections between your on-premises data center and your VMware Cloud SDDC, allowing you to easily and securely connect your workloads and applications running in the cloud to your on-premises resources.



A cloud administrator is managing a VMware Cloud on AWS environment. Currently, there Is a single cluster consisting of four 13.metal hosts. Due to an increased demand, cluster capacity has to be expanded by 60 cores and 640 GB of memory.
What should the administrator do to meet the demand?

  1. Add 16 CPU cores to the existing hosts.
  2. Add three c4.metal hosts to the cluster.
  3. Add two i3.metal hosts to the cluster.
  4. Add one i3en.metal host to the cluster.

Answer(s): C

Explanation:

According to the VMware Cloud on AWS documentation, the minimum capacity of an i3.metal host is 8 vCPUs and 64 GB of memory. Therefore, to meet the demand of an additional 60 cores and 640 GB of memory, the administrator should add two i3.metal hosts to the cluster. For more information, please refer to the official VMware Cloud on AWS documentation at:

https://docs.vmware.com/en/VMware-Cloud-on-AWS/index.html.






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