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100% Pass Quiz 2026 2V0-13.25: VMware Cloud Foundation 9.0 Architect Perfect Exam Material

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VMware 2V0-13.25 Exam Syllabus Topics:

TopicDetails
Topic 1
  • VMware Products and Solutions: This section of the exam evaluates the knowledge of VMware Solution Specialists and focuses on VMware Cloud Foundation (VCF). Candidates must be able to identify and differentiate between various VCF architecture options in given scenarios. The emphasis is on understanding the key products and how they integrate into enterprise design choices.
Topic 2
  • Plan and Design the VMware Solution: This section measures the skills of Cloud Infrastructure Designers. It focuses on gathering and analyzing business requirements and then transforming them into conceptual, logical, and physical models of VMware Cloud Foundation. Candidates are expected to identify prerequisites and make design decisions across fleet topologies, networking, management domains, workload domains, automation, and operations. The section also includes designing for availability within and across zones, creating strategies for manageability such as lifecycle, scalability, and capacity, and ensuring performance and recoverability through BCDR strategies. Additional emphasis is given to designing secure environments, workload migration strategies, and creating consumption, automation, and monitoring strategies to support modern applications and governance.
Topic 3
  • Troubleshoot and Optimize the VMware Solution: This section of the exam measures the skills of Operations Engineers. There are no explicitly testable objectives provided in this domain, but candidates are expected to understand troubleshooting and optimization principles to maintain the VMware environment effectively in real-world deployments.
Topic 4
  • Install, Configure, Administrate the VMware Solution: This section of the exam is relevant to System Administrators. Although it has no directly testable objectives, it underlines the expectation that candidates are familiar with installation, configuration, and administration tasks that form the foundation for VMware Cloud Foundation solutions.
Topic 5
  • IT Architectures, Technologies, Standards: This section of the exam measures the skills of IT Architects and covers the ability to distinguish business requirements from technical ones. It expects candidates to understand the differences between conceptual, logical, and physical designs while also differentiating requirements, assumptions, constraints, and risks. Core concepts of availability, manageability, performance, recoverability, and security (AMPRS) are tested. Learners also need to document risk mitigation strategies, design decisions, and create a validation strategy that ties requirements to practical implementation.

VMware Cloud Foundation 9.0 Architect Sample Questions (Q84-Q89):

NEW QUESTION # 84
When planning for a VMware vSphere environment, which Broadcom solutions help reduce storage latency?

Answer: A,B,D

Explanation:
Broadcom NVMe SSDs, RAID controllers, and vSAN reduce storage latency in VMware environments.


NEW QUESTION # 85
Which Broadcom components are essential for administering VMware environments with a focus on storage reliability?

Answer: A,B

Explanation:
Broadcom RAID Controllers and vSAN are essential for storage reliability in VMware environments.


NEW QUESTION # 86
Discovery: Multiple business units (some from acquisitions) with separate AD instances. Each unit operates independently and requiresdedicated development environments.
Requirement: Provide self-service provisioning through VCF Automation.
Which two design decisions should be included? (Choose two.)

Answer: B,D

Explanation:
VCF Automation (Aria Automation) supportsmulti-tenancywith separate AD integration:
* B: Each tenant must use theirown AD instance, aligning with independence across business units.
* C: Create atenant per business unit, ensuring isolation and dedicated resource allocation.
D(projects per business unit) could work in a single-tenant scenario but doesn't address multi-AD separation.
A/Eforce consolidation into corporate AD or single projects, violating independence requirements.
Reference:VMware Cloud Foundation 9.0 - VCF Automation Multi-Tenancy and Identity Integration.


NEW QUESTION # 87
A VMware Cloud Foundation multi-AZ (Availability Zone) design mandates that: All availability zones must operate independently of each other.
The availability SLA must adhere to no less than 99.9%.
What would be the three design decisions that would help satisfy those requirements? (Choose three.)

Answer: A,D,E

Explanation:
This scenario involves a VCF multi-AZ design where AZs must operate independently (no shared dependencies) and achieve a 99.9% availability SLA (allowing ~8.76 hours of downtime annually). The design decisions must ensure resilience, fault isolation, and recovery capabilities across AZs.
Requirement Analysis:
Independent AZ operation: Each AZ must function standalone, with no single point of failure or dependency across AZs.
99.9% availability: The design must minimize downtime through redundancy, replication, and recovery mechanisms.
Option Analysis:
A). Configure array-based replication between the selected AZ(s) for the management domain:
Array-based replication (e.g., vSphere Replication or SAN replication) for the management domain (vCenter, NSX Manager, SDDC Manager) ensures that critical management VMs are duplicated across AZs. If one AZ fails, the other can take over with minimal downtime, supporting independent operation and high availability. The VCF 5.2 Design Guide recommends replication for multi-AZ deployments to meet SLAs, as it provides a recovery point objective (RPO) near zero. This option enhances availability and is correct.
B). Make sure all configuration backups are replicated between the selected AZ(s):
Replicating configuration backups (e.g., SDDC Manager backups, NSX configurations) ensures that each AZ has access to recovery data. If an AZ's management components fail, the other AZ can restore operations independently using its local backup copy. This supports the independence requirement and reduces downtime (contributing to 99.9% SLA) by enabling quick recovery. The VCF Administration Guide emphasizes backup replication for multi-AZ resilience, making this option correct.
C). Make sure the recovery VLAN for the infrastructure management components has access to both AZ(s):
A recovery VLAN spanning both AZs implies a shared network dependency. If this VLAN fails (e.g., due to a network outage), both AZs could be impacted, violating the independence requirement. Multi-AZ designs in VCF favor isolated networks per AZ to avoid cross-AZ single points of failure. The VCF Design Guide advises against shared VLANs for critical components in independent AZ setups. This option undermines the requirements and is incorrect.
D). Choose two distant AZ(s) and consider each AZ the DR for the other:
Distant AZs (e.g., separate data centers) with mutual DR (disaster recovery) roles enhance geographic fault tolerance. However, "operate independently" in VCF typically means each AZ can run workloads standalone, not that one is a passive DR site. Distant AZs introduce latency, complicating synchronous replication needed for 99.9% availability, and may rely on shared management, conflicting with independence. The VCF Multi-AZ Guide focuses on active-active AZs, not DR-centric designs, making this less suitable.
E). Choose two close proximity AZ(s) and configure a stretched management workload domain:
A stretched management domain (e.g., using vSAN stretched cluster) spans AZs with synchronous replication, ensuring high availability. However, this creates a dependency: both AZs share the same vCenter and management stack, so a failure (e.g., vCenter outage) could affect both, violating independence. The VCF 5.2 Design Guide notes stretched clusters are for single logical domains, not independent AZs. This option contradicts the requirement and is incorrect.
F). Configure a non-routable separate recovery VLAN for the infrastructure management components within each AZ:
A non-routable, AZ-specific recovery VLAN isolates management recovery traffic (e.g., for vMotion, backups) within each AZ. This ensures that each AZ's management components operate independently, with no cross-AZ network reliance. If one AZ's network fails, the other remains unaffected, supporting the SLA through fault isolation. The VCF Multi-AZ Design Guide recommends separate, isolated networks per AZ for resilience, making this option correct.
Conclusion:
The three design decisions are Configure array-based replication between the selected AZ(s) for the management domain (A), Make sure all configuration backups are replicated between the selected AZ(s) (B), and Configure a non-routable separate recovery VLAN for the infrastructure management components within each AZ (F). These ensure independent operation and meet the 99.9% SLA through replication and isolation.
Reference: VMware Cloud Foundation 5.2 Design Guide (Section: Multi-AZ Design) VMware Cloud Foundation 5.2 Administration Guide (Section: Backup and Recovery) VMware Cloud Foundation Multi-AZ Deployment Guide (Section: Networking) VMware vSphere 8.0 Update 3 Documentation (Section: vSAN Stretched Clusters)


NEW QUESTION # 88
Which Broadcom solutions can be used to optimize VMware storage performance?

Answer: A,B,C

Explanation:
RAID controllers, NVMe SSDs, and Fibre Channel HBAs significantly enhance storage performance in VMware.


NEW QUESTION # 89
......

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