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2V0-13.24日本語版参考書 & 2V0-13.24日本語的中対策

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VMware 2V0-13.24 認定試験の出題範囲：

トピック	出題範囲
トピック 1	VMware by Broadcom ソリューション: この試験セクションでは、クラウド アーキテクトとインフラストラクチャ エンジニアのスキルを測定し、VMware by Broadcom ソリューションのアーキテクチャを理解することに重点を置きます。受験者は、さまざまなシナリオに基づいて、さまざまな VMware Cloud Foundation アーキテクチャ オプションを区別できる必要があります。
トピック 2	IT アーキテクチャ、テクノロジー、標準: この試験セクションでは、エンタープライズ アーキテクトとソリューション アーキテクトのスキルを測定し、IT アーキテクチャ、テクノロジー、標準の基礎に焦点を当てます。ビジネス要件と技術要件の区別、概念モデルと論理設計と物理設計の理解、要件、前提、制約、リスクの違いの認識などについて扱います。また、可用性、管理性、パフォーマンス、回復性、セキュリティ (AMPRS)、リスク軽減戦略の開発、設計上の決定の文書化、設計検証戦略の作成も含まれます。
トピック 3	VMware by Broadcom ソリューションの計画と設計: この試験セクションでは、VMware 管理者のスキルが評価されます。概念モデルを作成するために、ビジネス目標と要件を収集して分析します。さらに、VMware Cloud Foundation の論理設計と物理設計の作成についても取り上げます。これには、ネットワーク インフラストラクチャ、VCF 管理ドメイン、VCF ワークロード ドメイン、VCF エッジ クラスタ、VCF クラウド自動化、および VCF クラウド運用に関連する前提条件と設計上の決定が含まれます。設計では、アベイラビリティ ゾーン内およびアベイラビリティ ゾーン間の可用性、管理性 (ライフサイクル管理、スケーラビリティ、キャパシティ管理)、パフォーマンス、回復性 (BCDR 戦略)、および VCF 管理コンポーネントとワークロードのセキュリティを考慮する必要があります。ワークロードのモビリティ、消費、および監視戦略についてもこのセクションで取り上げます。
トピック 4	VMware by Broadcom ソリューションのトラブルシューティングと最適化: このセクションには、このバージョンの試験ではテスト可能な目標はありません。
トピック 5	VMware by Broadcom ソリューションのインストール、構成、および管理: このセクションには、このバージョンの試験ではテスト可能な目標はありません。

 

>> 2V0-13.24日本語版参考書 <<

2V0-13.24日本語的中対策、2V0-13.24受験対策書

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VMware Cloud Foundation 5.2 Architect 認定 2V0-13.24 試験問題 (Q33-Q38):

質問 # 33
Given a scenario, what is the best approach for monitoring VMware Cloud Foundation health and performance?
Response:

• A. Relying on VMware Cloud Foundation native tools for monitoring and alerting
• B. Setting up SNMP-based monitoring to capture basic infrastructure data
• C. Using a custom dashboard to monitor each individual VCF component manually
• D. Implementing VMware vRealize Operations for health, performance, and capacity management

正解：D

 

質問 # 34
During the requirements gathering workshop for a new VMware Cloud Foundation (VCF)-based Private Cloud solution, the customer states that the solution must:
* Provide a single interface for monitoring all components of the solution.
* Minimize the effort required to maintain the solution to N-1 software versions.
When creating the design document, under which design quality should the architect classify these stated requirements?

• A. Performance
• B. Recoverability
• C. Availability
• D. Manageability

正解：D

 

質問 # 35
Which design decision is essential for ensuring seamless workload mobility within VMware Cloud Foundation (VCF)?
Response:

• A. Using a single Availability Zone for all workload deployments
• B. Deploying separate networking configurations for each workload
• C. Configuring workload domains for each workload type
• D. Using VMware HCX for migrating workloads between sites

正解：D

 

質問 # 36
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. Headquarters 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. Smaller stores will have remote clusters deployed from the HQ VCF instance.
• D. Smaller stores will have remote clusters deployed from the geographically closest Larger store VCF instance.
• E. Headquarters will have a private cloud based on the VCF Standard Architecture.
• F. Larger stores will have a private cloud based on the VCF Consolidated Architecture.

正解：B、C、E

解説：
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.

 

質問 # 37
During the requirements capture workshop, the customer expressed a plan to use Aria Operations Continuous Availability to satisfy the availability requirements for a monitoring solution. They will validate the feature by deploying a Proof of Concept (POC) into an existing low-capacity lab environment. What is the minimum Aria Operations analytics node size the architect can propose for the POC design?

• A. Large
• B. Small
• C. Extra Small
• D. Medium

正解：B

解説：
The customer plans to use Aria Operations Continuous Availability (CA), a feature in VMware Aria Operations (formerly vRealize Operations) introduced in version 8.x and supported in VCF 5.2, to ensure monitoring solution availability. Continuous Availability separates analytics nodes into fault domains (e.g., primary and secondary sites) for high availability, validated here via a POC in a low-capacity lab. The architect must propose the minimum node size that supports CA in this context. Let's analyze:
Aria Operations Node Sizes:Per theVMware Aria Operations Sizing Guidelines, analytics nodes come in four sizes:
Extra Small:2 vCPUs, 8 GB RAM (limited to lightweight deployments, no CA support).
Small:4 vCPUs, 16 GB RAM (entry-level production size).
Medium:8 vCPUs, 32 GB RAM.
Large:16 vCPUs, 64 GB RAM.
Continuous Availability Requirements:CA requires at least two analytics nodes (one per fault domain) configured in a split-site topology, with a witness node for quorum. TheVMware Aria Operations Administration Guidespecifies that CA is supported starting with theSmallnode size due to resource demands for data replication and failover (e.g., memory for metrics, CPU for processing). Extra Small nodes are restricted to basic standalone or lightweight deployments and lack the capacity for CA's HA features.
POC in Low-Capacity Lab:A low-capacity lab implies limited resources, but the POC must still validate CA functionality. TheVCF 5.2 Architectural Guidenotes that Small nodes are the minimum for production-like features like CA, balancing resource use with capability. For a POC, two Small nodes (plus a witness) fit a low-capacity environment while meeting CA requirements, unlike Extra Small, which isn't supported.
Option A: SmallSmall nodes (4 vCPUs, 16 GB RAM) are the minimum size for CA, supporting the POC's goal of validating availability in a lab. This aligns with VMware's sizing recommendations.
Option B: MediumMedium nodes (8 vCPUs, 32 GB RAM) exceed the minimum, suitable for larger deployments but unnecessary for a low-capacity POC.
Option C: Extra SmallExtra Small nodes (2 vCPUs, 8 GB RAM) don't support CA, as confirmed by theAria Operations Sizing Guidelines, due to insufficient resources for replication and failover, making them invalid here.
Option D: LargeLarge nodes (16 vCPUs, 64 GB RAM) are overkill for a low-capacity POC, designed for high-scale environments.
Conclusion:The minimum Aria Operations analytics node size for the POC isSmall (A), enabling Continuous Availability in a low-capacity lab while meeting the customer's validation goal.References:
VMware Cloud Foundation 5.2 Architectural Guide(docs.vmware.com): Aria Operations Integration and HA Features.
VMware Aria Operations Administration Guide(docs.vmware.com): Continuous Availability Configuration and Requirements.
VMware Aria Operations Sizing Guidelines(docs.vmware.com): Node Size Specifications.

 

質問 # 38
......

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