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VMware 3V0-21.23 Exam Syllabus Topics:

Topic
Details

Topic 1

IT Architectures, Technologies, Standards: This section of the exam measures the skills of IT Architects and covers differentiating between business and technical requirements, as well as conceptual, logical, and physical design. A key skill measured is "Designing System Availability."

Topic 2

Plan and Design the VMware Solution: This part targets Solution Designers, evaluating their ability to gather business objectives, create conceptual models based on these objectives, develop logical designs, and translate them into physical designs that meet specific requirements like manageability or security.

Topic 3

VMware Products and Solutions: Targeting VMware Engineers, this section describes VMware Cloud Foundation architecture, its components like vSphere and NSX, benefits such as automation and scalability, and use cases like hybrid cloud environments. It assesses understanding of VMware Validated Solutions.

VMware vSphere 8.x Advanced Design Sample Questions (Q53-Q58):

NEW QUESTION # 53
A company has the business goal of automated, centralized, and efficient management of the data center.
Which statement would be included in the conceptual design to support this business goal?

A. Store templates and ISO files on a dedicated Virtual Machine File System (VMFS) datastore.
B. Join all vCenter instances to a single vCenter Single Sign-On domain.
C. Place the management cluster and the compute cluster in the same rack.
D. Reduce the cost of providing IT services to the organization.

Answer: B

Explanation:
To support the business goal of automated, centralized, and efficient management of the data center, joining all vCenter instances to a single vCenter Single Sign-On (SSO) domain helps in streamliningmanagement and improving security. By centralizing authentication and enabling single sign-on, the organization can achieve a more efficient and consistent management experience across the entire data center. This eliminates the need to manage multiple authentication systems, allowing for better integration, automation, and centralized control over all vCenter instances.

NEW QUESTION # 54
What does determining compliance requirements for a vSphere design involve?

A. Specifying the hardware specifications required for the vSphere environment.
B. Optimizing the system's data storage and retrieval processes.
C. Ensuring the vSphere system meets industry regulations and standards.
D. Identifying the virtual machines and cores needed for the vSphere environment.

Answer: C

NEW QUESTION # 55
An architect is designing a vSphere environment for a customer based on the following information:
- The vSphere cluster will have three hosts only due to budget considerations.
- A database cluster (node majority) consisting of three virtual machines will be running on the vSphere cluster.
Which two recommendations can the architect make so that the customer achieves the highest level of application availability while taking into consideration operational resiliency- (Choose two.)

A. Create VM-Host anti-affinity rules
B. Create VM-VM anti-affinity rules
C. Disable vSphere HA during maintenance
D. Set das.respectvmvmantiaffinityrules to false
E. Set das.ignoreinsufficienthbdatastore to true

Answer: B,D

Explanation:
das.respectvmvmantiaffinityrules
Determines if vSphere HA enforces VM-VM anti-affinity rules. The default value is "true" and rules are enforced even if vSphere DRS is not enabled. In this case, vSphere HA does not fail over a virtual machine if doing so violates a rule, but it issues an event reporting there are insufficient resources to perform the failover. This option can also be set to "false", whereby the rules are not enforced.

NEW QUESTION # 56
An architect decides to separate virtual desktops and application servers into separate vSphere clusters to meet security and management requirements.
What are two implications of this design decision? (Choose two.)

A. There will be a reduction in performance.
B. There will be additional licensing and cost requirements for both clusters.
C. There will be an increase in management overhead.
D. Identical hardware must be procured for all hosts.
E. The patching cycles will affect both clusters at the same time.

Answer: B,C

NEW QUESTION # 57
An architect is designing a new vSphere-based solution for a customer.
During a requirement gathering workshop, the following information is provided:
The solution must have a primary and secondary site.
The solution must support a maximum of 1,000 concurrent workloads.
The profile of the workloads are as follows:
- Production Workloads
-- 300 x Small: 1 vCPU, 2 GB RAM
-- 400 x Medium: 2 vCPU, 6 GB RAM
-- 100 x Large: 4 vCPU, 8 GB RAM
- Development Workloads
-- 200 x Small: 1 vCPU, 2 GB RAM
The corporate security policy states that, during normal operations, production workloads must be physically segregated from development workloads.
All production workloads are split evenly across the primary and secondary site.
All development workloads run only within the secondary site.
In the event of a disaster affecting workloads in the primary site, the secondary site must be capable of running all production and development workloads.
The vCPU to physical core ratio should be a maximum of 10:1 for production workloads and 20:1 for development workloads.
The solution should provide a minimum of N + 1 resiliency at each component level.
The target physical host hardware platform has already been defined by the company's hardware standards and therefore each host has the following configuration:
-- 2 x 24 physical cores
-- 768 GB RAM
-- 2 x 100 GB SSD drives
-- 6 x 10 GbE network cards
What is the minimum number of hosts required to meet the requirements?

A. 0
B. 1
C. 2
D. 3

Answer: A

Explanation:
1. Production Workloads:
300 x Small: 1 vCPU, 2 GB RAM
400 x Medium: 2 vCPU, 6 GB RAM
100 x Large: 4 vCPU, 8 GB RAM
TotalvCPUsrequired for production:
Small: 300 x 1 = 300 vCPUs
Medium: 400 x 2 = 800 vCPUs
Large: 100 x 4 = 400 vCPUs
Total production vCPUs= 300 + 800 + 400 =1,500 vCPUs
2. Development Workloads:
200 x Small: 1 vCPU, 2 GB RAM
Total vCPUsrequired for development:
Small: 200 x 1 =200 vCPUs
3. Workload Distribution:
Production workloads are split evenly across the primary and secondary site:750 vCPUs per site(1,500/2).
All development workloads run in the secondary site:200 vCPUs.
4. vCPU to Physical Core Ratio:
Production workloads:10:1 ratio(vCPU to core ratio).
Development workloads:20:1 ratio(vCPU to core ratio).
5. Hosts Configuration:
Each host has24 physical coresand768 GB of RAM.
Since the maximum vCPU-to-core ratio for production is 10:1, each host can support240 vCPUs(24 cores x
10).
For development, with a ratio of 20:1, each host can support480 vCPUs(24 cores x 20).
6. Host Calculation:
Production Workloads(750 vCPUs per site):
750 vCPUs for production divided by 240 vCPUs per host =3.125 hosts(rounding up =4 hostsper site for production).
Development Workloads(200 vCPUs):
200 vCPUs divided by 480 vCPUs per host =0.416 hosts(rounding up =1 hostfor development).
7. Resiliency:
N + 1 resiliencymeans we need one extra host per site to provide redundancy.
8. Total Hosts:
4 hostsfor production in the primary site.
4 hostsfor production in the secondary site.
1 hostfor development in the secondary site.
1 additional hostfor N + 1 resiliency in both sites.
Total hosts required= 4 (primary production) + 4 (secondary production) + 1 (secondary development) + 2 (N
+ 1) =12 hosts.

NEW QUESTION # 58
......

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