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VMware 2V0-13.24 Exam Syllabus Topics:

Topic	Details
Topic 1	Install, Configure, and Administrate the VMware by Broadcom Solution: This section has NO TESTABLE OBJECTIVES in this version of the exam.
Topic 2	VMware by Broadcom Solution: This section of the exam measures the skills of cloud architects and infrastructure engineers and focuses on understanding the architecture of VMware by Broadcom solution. Candidates should be able to differentiate between various VMware Cloud Foundation architecture options based on different scenarios.
Topic 3	Plan and Design the VMware by Broadcom Solution: This section of the exam measures the skills of VMware administrators. It involves gathering and analyzing business objectives and requirements to create a conceptual model. Additionally, it covers the creation of VMware Cloud Foundation logical and physical designs. This includes prerequisites and design decisions related to Network Infrastructure, VCF Management Domain, VCF Workload Domain, VCF Edge Cluster, VCF Cloud Automation, and VCF Cloud Operations. Designs should consider availability within and across availability zones, manageability (Lifecycle Management, Scalability, Capacity Management), performance, recoverability (BCDR strategies), and security for VCF Management Components and Workloads. Workload mobility, consumption, and monitoring strategies are also addressed in this section.
Topic 4	IT Architectures, Technologies, Standards: This section of the exam measures the skills of enterprise architects and solution architects and focuses on the fundamentals of IT architectures, technologies, and standards. It covers differentiating between business and technical requirements, understanding conceptual models, and logical and physical designs, and recognizing the distinctions between requirements, assumptions, constraints, and risks. Also included are availability, manageability, performance, recoverability, and security (AMPRS), developing risk mitigation strategies, documenting design decisions, and creating design validation strategies.
Topic 5	Troubleshoot and Optimize the VMware by Broadcom Solution: This section has NO TESTABLE OBJECTIVES in this version of the exam.

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VMware Cloud Foundation 5.2 Architect Sample Questions (Q103-Q108):

NEW QUESTION # 103
To meet performance requirements for a VCF deployment, which action should be taken?
Response:

A. Use only SSDs for all storage components in the solution
B. Implement VMware NSX for network optimization
C. Allocate additional CPU cores to the vCenter Server
D. Deploy workloads across a single physical site for low-latency communication

Answer: B

NEW QUESTION # 104
Which of the following should be avoided when creating a conceptual model for a VMware Cloud Foundation deployment?
Response:

A. Defining key business objectives and performance goals
B. Including the physical requirements for each component
C. Including high-level design decisions and interdependencies
D. Specifying the logical relationships between the major components

Answer: B

NEW QUESTION # 105
An architect is designing a VMware Cloud Foundation (VCF)-based private cloud solution for a customer.
The customer has stated the following requirement:
All components within the solution must be resilient to N+1.
During discovery, the following information has also been provided:
Over the next 3 years, due to various applications being retired, no overall growth in resource consumption is expected.
Following a review of a demand-based capacity report from Aria Operations, the architect has calculated that all of the existing workloads should fit into a 4-node cluster. Once all workloads are migrated, the resources of the cluster will be 90% utilized.
Given the information provided, a combination of which three design decisions satisfy the requirement?
(Choose three.)

A. The solution will set the DRS Automation level setting for the workload cluster to Partially Automated.
B. The solution will deploy a workload cluster consisting of four VMware vSphere hosts.
C. The solution will set the Host failures cluster tolerates for the workload cluster to 1.
D. The solution will deploy a workload cluster consisting of five VMware vSphere hosts.
E. The solution will configure vSphere High Availability (HA) for the workload cluster.
F. The solution will configure vSphere Dynamic Resource Scheduling (DRS) for the workload cluster.

Answer: C,D,E

Explanation:
The requirement for N+1 resiliency means the solution must tolerate the failure of one component (in this case, one ESXi host) without disrupting workloads. In VMware Cloud Foundation (VCF), this is typically achieved through vSphere High Availability (HA) settings and sufficient host capacity. The scenario provides key constraints: a 4-node cluster can handle all workloads at 90% utilization, and no growth is expected. Let's evaluate each option:
Option A: Set the DRS Automation level to Partially AutomatedDRS (Dynamic Resource Scheduling) balances workloads across hosts, but the automation level (Partially Automated vs. Fully Automated) doesn't directly impact N+1 resiliency. Partially Automated requires manual approval for migrations, which doesn't enhance or detract from HA-based resiliency. While DRS is useful, this specific setting isn't critical to the N+1 requirement, per theVMware Cloud Foundation 5.2 Architectural Guide.
Option B: Deploy a workload cluster consisting of five VMware vSphere hostsA 5-node cluster provides N+1 resiliency when paired with HA configured to tolerate one host failure. If one host fails, the remaining four can handle the workload, assuming capacity planning accounts for this. The Aria Operations report indicates a 4-node cluster is sufficient at 90% utilization, but adding a fifth host ensures capacity remains after a failure (reducing utilization to ~72% across four hosts: 90% / 1.25). This aligns with VCF's standard architecture recommendations for resiliency (VMware Cloud Foundation 5.2 Architectural Guide).
Option C: Set the Host failures cluster tolerates for the workload cluster to 1This HA setting ensures the cluster reserves capacity (e.g., CPU and memory) to failover VMs from onefailed host. In VCF, setting "Host failures cluster tolerates" to 1 is a direct implementation of N+1 resiliency, making it a required design decision (vSphere Availability GuideandVCF 5.2 Administration Guide).
Option D: Deploy a workload cluster consisting of four VMware vSphere hostsA 4-node cluster meets capacity needs at 90% utilization but lacks N+1 resiliency without additional capacity. If one host fails, the remaining three would be overcommitted (120% utilization: 90% / 0.75), risking performance or availability.
Thus, this doesn't satisfy the requirement alone.
Option E: Configure vSphere High Availability (HA) for the workload clusterHA is foundational to N+1 resiliency in vSphere and VCF, enabling VM restarts on surviving hosts after a failure. Without HA, N+1 cannot be achieved, making this a mandatory choice (VMware Cloud Foundation 5.2 Administration Guide).
Option F: Configure vSphere Dynamic Resource Scheduling (DRS) for the workload clusterDRS enhances performance by balancing workloads but isn't strictly required for N+1 resiliency, which focuses on availability, not optimization. It's a best practice in VCF but not one of the three critical decisions for this requirement.
Conclusion:
B: A 5-node cluster provides the extra host for N+1.
C: HA set to tolerate 1 host failure implements N+1 policy.
E: HA configuration enables failover, a core N+1 component.Options B, C, and E together ensure the cluster can lose one host without service disruption, meeting the customer's requirement.References:
VMware Cloud Foundation 5.2 Architectural Guide(docs.vmware.com): Section on Workload Domain Design and HA/DRS Configuration.
vSphere Availability Guide(docs.vmware.com): Chapter on Configuring High Availability.
VMware Cloud Foundation 5.2 Administration Guide(docs.vmware.com): HA and Cluster Sizing Guidelines.

NEW QUESTION # 106
An architect is working on a design for a new VMware Cloud Foundation (VCF) solution for a retail organization. The organization wants to initially deploy the solution into their headquarters and a number of larger stores. They also plan to pilot the expansion of the deployment into some of their smaller stores. The locations have the following characteristics:
Headquarters has a brand-new datacenter and 40Gb network infrastructure.
Larger stores have secure machine rooms and 10Gb network infrastructure.
Smaller stores have small secure racks and 100Mb network infrastructure.
The organization's cloud administration team have stated a requirement that the design should minimize the number of instances of management tools they need to support without impacting the performance of the workloads consumed by the end users. What three design decisions about the VCF deployment architecture could the architect include in the logical design? (Choose three.)

A. Larger stores will have a private cloud based on the VCF Consolidated Architecture.
B. Larger stores will have workload domains deployed from the HQ VCF instance.
C. Headquarters will have a private cloud based on the VCF Consolidated Architecture.
D. Smaller stores will have remote clusters deployed from the HQ VCF instance.
E. Smaller stores will have remote clusters deployed from the geographically closest Larger store VCF instance.
F. Headquarters will have a private cloud based on the VCF Standard Architecture.

Answer: B,D,F

Explanation:
VMware Cloud Foundation (VCF) offers two primary architectural models:Standard Architecture(separate Management and Workload Domains) andConsolidated Architecture(combined management and workloads in a single domain). The requirement to minimize management tool instances suggests centralizing management where possible, while the diverse network infrastructure (40Gb, 10Gb, 100Mb) and workload performance needs influence the design. Let's evaluate each option:
Option A: Headquarters will have a private cloud based on the VCF Consolidated ArchitectureThe Consolidated Architecture combines management and workload components in one domain, suitable for smaller deployments with limited resources. However, headquarters has a brand-new datacenter with 40Gb networking, indicating a high-capacity environment likely intended as the central hub. TheVCF 5.2 Architectural Guiderecommends the Standard Architecture for larger, scalable deployments with robust infrastructure, as it separates management for better isolation and scalability, conflicting with Consolidated Architecture here.
Option B: Larger stores will have a private cloud based on the VCF Consolidated ArchitectureLarger stores have 10Gb infrastructure and secure machine rooms, suggesting moderate capacity. While Consolidated Architecture could work, it requires a full VCF stack (SDDC Manager, vCenter, NSX) per site, increasing management instances. This contradicts the requirement to minimize management tools, as each store would need its own management stack.
Option C: Smaller stores will have remote clusters deployed from the HQ VCF instanceSmaller stores with 100Mb infrastructure are resource-constrained. Deploying remote clusters (e.g., stretched or additional clusters) managed by the HQ VCF instance leverages centralized SDDC Manager and vCenter, minimizing management tools. TheVCF 5.2 Administration Guidesupports remote cluster deployment from a central VCF instance, ensuring performance via local workload placement while reducing administrative overhead-ideal for the pilot phase.
Option D: Smaller stores will have remote clusters deployed from the geographically closest Larger store VCF instanceThis assumes larger stores host their own VCF instances, which increases management complexity (multiple SDDC Managers). The requirement to minimize management tools favors a single HQ- managed instance over distributed management from larger stores, making this less optimal.
Option E: Headquarters will have a private cloud based on the VCF Standard ArchitectureThe Standard Architecture deploys a dedicated Management Domain at HQ (with 40Gb infrastructure) and allows workload domains or remote clusters to be managed centrally. This aligns with minimizing management instances (one SDDC Manager, one vCenter) while supporting high-performance workloads across all locations, per theVCF 5.2 Architectural Guide. It's the best fit for HQ's role as the central hub.
Option F: Larger stores will have workload domains deployed from the HQ VCF instanceDeploying workload domains for larger stores from HQ's VCF instance uses the Standard Architecture's flexibility to manage multiple domains centrally. With 10Gb infrastructure, larger stores can host workloads efficiently under HQ's SDDC Manager, avoiding separate VCF instances and meeting the management minimization requirement without compromising performance.
Conclusion:
E: Standard Architecture at HQ provides a scalable, centralized management foundation.
F: Workload domains for larger stores from HQ reduce management overhead.
C: Remote clusters for smaller stores from HQ support the pilot with minimal tools.This trio balances centralized management with performance across varied infrastructure.References:
VMware Cloud Foundation 5.2 Architectural Guide(docs.vmware.com): Section on Standard vs.
Consolidated Architecture.
VMware Cloud Foundation 5.2 Administration Guide(docs.vmware.com): Remote Cluster and Workload Domain Deployment.

NEW QUESTION # 107
Which two design decisions are key when ensuring availability for workloads across multiple availability zones in VMware Cloud Foundation?
(Choose two)
Response:

A. Designing the network architecture for unified storage across all zones
B. Enabling DRS (Distributed Resource Scheduler) to balance workloads automatically
C. Implementing high-availability (HA) clusters in each availability zone
D. Using NSX-T for network segmentation and load balancing across zones

Answer: C,D

NEW QUESTION # 108
......

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VALID 2V0-13.24 EXAM BRAINDUMPS SUPPLY YOU TRUSTABLE PRACTICE ENGINE - 2PASS4SURE

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