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認定する-高品質な3V0-21.23ブロンズ教材試験-試験の準備方法3V0-21.23 PDF問題サンプル

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VMware vSphere 8.x Advanced Design 認定 3V0-21.23 試験問題 (Q39-Q44):

質問 # 39
What is a benefit of using workload domains in VMware Cloud Foundation?

A. Each workload domain can only support a maximum of three ESXi hosts, makinq it easy to manaqe small workloads.
B. Workload domains require separate instances of vCenter, decreasinq complexity and manaqement overhead.
C. Workload domains allow for manual provisioninq of vSphere clusters usinq the SDDC Manaqer.
D. Workload domains are pre-configured and automatically deployed according to industry best practices for SDDC implementation.

正解：D

解説：
Based on VMware vSphere 8.x Advanced documentation and VMware Cloud Foundation (VCF) resources, the architect needs to identify the benefit of using workload domains in a VCF environment. Workload domains are a core construct in VCF, designed to simplify the deployment and management of Software- Defined Data Center (SDDC) components, including vSphere, vSAN, NSX, and vCenter.
Analysis of Workload Domains in VCF:
* Workload Domains: In VCF, workload domains are logical units that group compute, storage, and networking resources to host specific workloads (e.g., production, development, or DMZ). They include a vSphere cluster, vSAN storage, NSX networking, and a dedicated vCenter instance, managed through the SDDC Manager.
* Purpose: Workload domains provide isolation, scalability, and simplified management by automating the deployment and configuration of SDDC components according to VMware's best practices.
Evaluation of Options:
* A. Workload domains require separate instances of vCenter, decreasing complexity and management overhead:
* Why incorrect: While workload domains do include a dedicated vCenter instance for each domain to ensure isolation and independent management, this increases management overhead rather than decreasing it. Each vCenter instance requires separate administration, monitoring, and patching, which adds complexity compared to a single vCenter managing multiple clusters. This is not a benefit.: VMware Cloud Foundation documentation notes that separate vCenter instances per workload domain enhance isolation but increase management tasks.
B: Workload domains allow for manual provisioning of vSphere clusters using the SDDC Manager:
Why incorrect: Workload domains are provisioned automatically through the SDDC Manager, not manually.
The SDDC Manager automates the creation, configuration, and deployment of workload domains based on predefined templates and policies, reducing manual effort. Manual provisioning contradicts VCF's automation-centric approach.
Reference: VMware Cloud Foundation documentation emphasizes automated provisioning of workload domains via SDDC Manager.
C: Workload domains are pre-configured and automatically deployed according to industry best practices for SDDC implementation:
Why correct: This is a key benefit of workload domains in VCF. Workload domains are automatically deployed by the SDDC Manager with pre-configured settings for vSphere, vSAN, NSX, and vCenter, adhering to VMware's validated best practices for SDDC implementation. This ensures consistency, reliability, and optimized performance while reducing deployment time and errors. The automation and adherence to best practices simplify the creation of isolated, scalable environments for workloads, making this the primary benefit.
Reference: VMware Cloud Foundation documentation highlights workload domains as pre-configured, automated constructs that follow VMware Validated Designs for SDDC.
D: Each workload domain can only support a maximum of three ESXi hosts, making it easy to manage small workloads:
Why incorrect: Workload domains in VCF are not limited to three ESXi hosts. They can support multiple hosts (typically 3 to 64, depending on the configuration and licensing), allowing scalability for various workload sizes. This option inaccurately describes workload domain capabilities and does not reflect a benefit, as it imposes a false limitation.
Reference: VMware Cloud Foundation documentation specifies that workload domains can scale to support large clusters, not just small workloads.
Why C is the Best Choice:
Automation and best practices: Workload domains are a hallmark of VCF's automated deployment model, using SDDC Manager to provision pre-configured vSphere clusters, vSANstorage, and NSX networking according to VMware Validated Designs. This ensures consistency, reduces manual configuration errors, and aligns with industry best practices for SDDC.
Simplified deployment: The pre-configured nature of workload domains accelerates deployment, providing a standardized, repeatable process that benefits both small and large-scale environments.
Alignment with VCF: This benefit directly supports VCF's value proposition of delivering a fully integrated, automated SDDC with minimal operational overhead for deployment.

質問 # 40
Which two of the listed requirements would be classified as manageability non-functional requirements- (Choose two.)

A. ESXi clusters must scale to 500 concurrent virtual machines
B. ESXi host updates must be installed within one week of release
C. vSphere Fault Tolerance must be supported to improve application uptime
D. ESXi clusters must scale when compute resources are sustained above 70% for five business days
E. The vSphere environment must support administrator password rotation

正解：B、D

解説：
Functional requirements explain how the system must work, while non functional requirements explain how the system should perform.
https://enkonix.com/blog/functional-requirements-vs-non-functional/

質問 # 41
What do capacity requirements for a vSphere design help determine?

A. The expected maximum load the vSphere system can handle.
B. The number of system administrators needed to manage the vSphere environment.
C. The storage and compute resources needed for the vSphere environment.
D. The network bandwidth and data transfer speeds.

正解：A

質問 # 42
The architect for a large enterprise is tasked with reviewing a proposed design created by a service partner.
Which design elements are expected to be detailed within the physical design section of the documentation?

A. An entity relationship diagram describing upstream and downstream dependencies for specific service components
B. A design diagram illustrating the configuration and specific attributes, such as IP addresses
C. A list of requirements, constraints, and risks
D. A solution architecture diagram with the components and data flow

正解：B

解説：
The physical design is based on the logical design. The physical design includes specific hardware from specific vendors. This design also lists specific configurations for each of the components that are deployed.

質問 # 43
An architect is documenting the design for a new multi-site vSphere solution. The customer has informed the architect that the workloads hosted on the solution are managed by application teams, who must perform a number of steps to return the application to service following a failover of the workloads to the secondary site.
These steps are defined as the Work Recovery Time (WRT). The customer has provided the architect with the following information about the workloads:
Critical workloads have a WRT of 12 hours
Production workloads have a WRT of 24 hours
Development workloads have a WRT of 24 hours
All workloads have an RPO of 4 hours
Critical workloads have an RTO of 1 hour
Production workloads have an RTO of 12 hours
Development workloads have an RTO of 24 hours
The customer has also confirmed that the Disaster Recovery solution will not begin the recovery of the development workloads until all critical and production workloads have been recovered at the secondary site.
What would the architect document as the maximum tolerable downtime (MTD) for each type of workload in the design?

A. Critical Workloads: 13 hours
Production Workloads: 36 hours
Development Workloads: 48 hours
B. Critical Workloads: 16 hours
Production Workloads: 28 hours
Development Workloads: 28 hours
C. Critical Workloads: 12 hours
Production Workloads: 24 hours
Development Workloads: 24 hours
D. Critical Workloads: 13 hours
Production Workloads: 36 hours
Development Workloads: 60 hours

正解：A

解説：
TheMaximum Tolerable Downtime (MTD)is the maximum time that an application or system can be unavailable before it negatively impacts the business. TheMTDis calculated by adding theRecovery Time Objective (RTO)to theWork Recovery Time (WRT). Here's how it applies to each workload type:
Critical Workloads:
- RTO:1 hour (time to restore the system to a usable state after failure).
- WRT:12 hours (the time to get the application fully back to service).
- MTD = RTO + WRT = 1 hour + 12 hours = 13 hours.
Production Workloads:
- RTO:12 hours (time to restore the system to a usable state after failure).
- WRT:24 hours (time to get the application fully back to service).
- MTD = RTO + WRT = 12 hours + 24 hours = 36 hours.
Development Workloads:
- RTO:24 hours (time to restore the system to a usable state after failure).
- WRT:24 hours (time to get the application fully back to service).
- MTD = RTO + WRT = 24 hours + 24 hours = 48 hours.

質問 # 44
......

3V0-21.23試験問題はグローバルなものであるとVMware誇らしく言えます。したがって、どんな種類の3V0-21.23テストトレントを求めても、当社のアフターサービスサービススタッフは、最も専門的な方法で3V0-21.23練習問題の問題を解決するお手伝いをします。 3V0-21.23のVMware vSphere 8.x Advanced Design学習ツールを目指しているお客様は世界中のさまざまな国から来ており、間違いなく時間差があるため、3V0-21.23トレーニングガイドで1日24時間、7日間、思いやりのあるTech4Examオンラインアフターサービスを提供します週に数日、いつでもどこでも気軽にご連絡ください。

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