Successfully passing the 5V0-33.23 VMware Cloud on AWS: Master Specialist exam is a significant achievement that will earn you the prestigious VMware Certified Master Specialist – VMware Cloud on AWS 2024 [v2] certification. To help you prepare for this challenging exam, Passcert offers the most up-to-date and comprehensive VMware Cloud on AWS: Master Specialist 2024 5V0-33.23 Dumps to encompass all the crucial topics and concepts, featuring a wide array of questions accompanied by thoroughly verified and expertly explained answers. By utilizing these high-quality VMware Cloud on AWS: Master Specialist 2024 5V0-33.23 Dumps, you’ll be equipped with the knowledge and confidence necessary to tackle the exam effectively, significantly increasing your chances of passing with flying colors and achieving your certification goals.

The VMware Cloud on AWS: Master Specialist 2024 (5V0-33.23) exam, which leads to VMware Certified Master Specialist – VMware Cloud on AWS certification is a 64-item exam, with a passing score of 300 using a scaled method. Candidates are given an appointment time of 135 minutes, which includes adequate time to complete the exam for non-native English speakers. This exam may contain a variety of item types including multiple-choice, multiple-selection multiple-choice, build-list, matching, drag-and-drop, pint-and-click and hot-area. Additional item types may be used but will appear less frequently than those previously mentioned.

Number of Questions: 64 Questions

Duration: 130 Minutes

Cost: $250 USD

Passing Score: 300

Language: English

Format: multiple-choice, multiple-selection multiple-choice, build-list, matching, drag-and-drop, pint-and-click and hot-area

Associated Certification: VMware Certified Master Specialist – VMware Cloud on AWS certification

Objective 1.1 – Understand VMware Cloud on AWS technology and architecture

Objective 1.2 – Understand the AWS architecture required for VMware Cloud on AWS

Objective 1.3 – Understand the VMware Cloud on AWS Shared Responsibility Model

Objective 1.4 – Given a scenario, differentiate between the SLAs for VMware Cloud on AWS

Objective 2.1 – Describe the usecase for VMware Aria Operations for Logs in a VMware Cloud on AWS solution

Objective 2.2 – Describe the usecase for VMware Horizon in a VMware Cloud on AWS solution

Objective 2.3 – Describe the usecase for VMware Aria Automation in a VMware Cloud on AWS solution

Objective 2.4 – Describe the usecase for VMware Aria Operations for Networks in a VMware Cloud on AWS solution

Objective 2.5 – Describe the usecase for VMware Aria Operations in a VMware Cloud on AWS solution

Objective 2.6 – Describe the usecase for the VMware NSX Advanced Load Balancer within a VMware Cloud on AWS solution

Objective 2.7 – Describe the usecase for VMware HCX in a VMware Cloud on AWS solution

Objective 2.8 – Describe the different VMware Cloud BC/DR options for VMware Cloud on AWS

Objective 3.1 – Given a scenario, identify the use cases for VMware Cloud on AWS

Objective 3.2 – Identify accounts needed

Objective 3.3 – Identify the required networking

Objective 3.4 – Identify the connectivity options

Objective 3.5 – Design a VMware Cloud on AWS SDDC for Capacity Optimization

Objective 3.6 – Describe VMware vSAN storage options with VMware Cloud on AWS

Objective 3.7 – Describe supplemental storage options for VMware Cloud on AWS

Objective 3.8 – Plan a workload migration to VMware Cloud on AWS

Objective 3.9 – Design a VMware Cloud on AWS SDDC for Cost Optimization

Objective 3.10 – Differentiate between the consumption models for VMware Cloud on AWS

Objective 3.11 – Given a scenario, identify the benefits of using VMware Cloud on AWS

Objective 4.1 – Prepare AWS Infrastructure for a VMware Cloud on AWS Deployment

Objective 4.2 – Set up VMware Cloud on AWS Account

Objective. 4.3 – Deploy and Manage SDDC Configurations

Objective 4.4 – Access API with VMware Cloud on AWS

Objective 4.5 – Configure SDDC Connectivity options

Objective 4.6 – Configure Networking and Security options inside the SDDC

Objective 4.7 – Configure vSAN storage policies

Objective 4.8 – Configuring Supplemental Storage Options

Objective 4.9 – Enable and configure Hybrid Linked Mode

Objective 4.10 – Configure virtual machine migration with VMware Hybrid Cloud Extension

Objective 4.11 – Configure Disaster Recovery for workloads inside the SDDC

Objective 4.12 – Scale an SDDC

Objective 4.13 – Create a Virtual Machine in the Cloud SDDC

Objective 4.14 – Configure an identity source for the SDDC

Objective 4.15 – Analyze VMware Cloud on AWS privilege model

Objective 5.1 – Optimize and maintain SDDC Cluster

Objective 5.2 – Optimize and maintain the Workloads

Objective 5.3 – Optimize vSAN Storage Policies

Objective 5.4 – Optimize network inside the SDDC

Objective 5.5 – Maintain and support a VMC on AWS solution

Objective 5.6 – Troubleshoot on VMC on AWS

1. A customer wants to ensure that VMware Cloud on AWS maintenance operations are performed during their maintenance window. Which option would allow the customer to achieve this outcome?

A. Schedule a maintenance preference in the software-defined data center (SDDC) console.

B. Schedule a call with VMware Cloud on AWS Support and schedule a maintenance window.

C. Schedule a call with AWS Support and schedule a maintenance window.

D. Schedule a maintenance window through an online support request.

Answer: A

2. An administrator deploys a virtual machine and configures it to perform backups to an AWS Simple Storage Service (S3) bucket. After the first month of use, the administrator receives a bill from AWS indicating egress charges were applied to the backup traffic leaving the software-defined data center (SDCC), destined for the AWS S3 bucket. What can the administrator do to ensure backup traffic travels to the linked Amazon Virtual Private Cloud (VPC) through the Elastic Network Interface?

A. Configure the S3 bucket with a public endpoint accessible over the Internet through HTTPS.

B. Configure Direct Connect to a private virtual interface for access to AWS services.

C. Create a gateway endpoint in the linked AWS VPC and configure it for use with the S3 bucket.

D. Configure a route-based virtual private network (VPN) for the SDDC to the VPC.

Answer: C

3. An environment is running a cluster with six i3.metal hosts in the VMware Cloud on AWS softwaredefined data center (SDDC). If one host fails, what happens after a new host is automatically added to the cluster?

A. The SDDC and NVMe drives backing VMware vSAN capacity are unmounted from the failed host and attached to the new host. There is no VMware vSAN rebuild required.

B. The VMware vSAN rebuild starts in the background. Performance might be degraded during rebuild and the failures to tolerate (hi I) is lowered to 0.

C. The VMware vSAN rebuild starts in the background. Performance might be degraded during rebuild and the failures to tolerate (hi I) is lowered to 1.

D. A notification is received from VMware Support to start the VMware vSAN rebuild. Performance might be degraded during rebuild.

Answer: C

4. Which API endpoint serves as the authentication point for VMware Cloud on AWS?

A. Cloud Services Platform API

B. NSX-T Data Center API

C. Deployed SDDC API

D. VMware Cloud on AWS API

Answer: A

5. An environment is running a VMware Cloud on AWS software-defined data center (SDDC) with six i3.metal hosts. Storage space usage has increased and the administrator is required to add storage capacity. Which two approaches can the administrator take to add storage capacity? (Choose two.)

A. Deploy Amazon Elastic File System (EFS) file shares from the AWS console and attach them to the i3.metal hosts. Use VMware Storage vMotion to migrate the storage-bound virtual machines to the Amazon EFS data stores.

B. Deploy Amazon Elastic Block Store (EBS) storage volumes (GP2) from the AWS console and attach them to the i3.metal hosts. Allow VMware vSAN extend the storage capacity automatically.

C. Deploy an additional cluster based on i3en.metal hosts and migrate the storage-bound virtual machines to the i3en.metal hosts.

D. Add additional i3.metal hosts to increase the total vSAN storage space.

E. Add additional i3en.metal hosts and migrate the storage-bound virtual machines to the i3en.metal hosts.

Answer: CD

6. What are two benefits of completing a full data center evacuation to VMware Cloud on AWS? (Choose two.)

A.Reduce the risk of migrating applications to the cloud by removing the need for application transformation.

B.Maintain existing investment in skills and toolsets.

C.Provide a hybrid cloud management solution.

D.Provide a seamless way to expand the on-premises software-defined data center (SDDC) into the cloud.

E.Diversify the risk associated with migrating applications to the cloud by automatically deploying workloads to multiple regions.

Answer: A, B

7. What is a key functionality of the vRealize Automation Cloud Service Broker?

A.Provides a common catalog for easy consumption on VMware Cloud.

B.Manages blueprints as a code in a YAML format.

C.Automates the DevOps release lifecycle.

D.Creates and deploys virtual machines, applications, and services to multiple clouds.

Answer: A

8. A customer wants to ensure that VMware Cloud on AWS maintenance operations are performed during their maintenance window. Which option would allow the customer to achieve this outcome?

A.Schedule a maintenance preference in the software-defined data center (SDDC) console.

B.Schedule a call with VMware Cloud on AWS Support and schedule a maintenance window.

C.Schedule a call with AWS Support and schedule a maintenance window.

D.Schedule a maintenance window through an online support request.

Answer: A