2025 Latest 3V0-21.23 dumps Exam Material with 94 Questions
VMware 3V0-21.23 Questions and Answers Guarantee you Oass the Test Easily
NEW QUESTION # 48
What are two benefits of the VMware Validated Solutions? (Choose two.)
- A. Provide comprehensive manual deployment guidance and day 2 operational practices
- B. Deploy technical validated implementations on VMware Cloud Foundation
- C. Provide best practice design guidance
- D. Provide faster time to value for VMware Cloud Foundation
- E. Provide prescriptive runbooks to deploy VMware solutions
Answer: B,C
Explanation:
Based on VMware vSphere 8.x Advanced documentation and VMware Validated Solutions (VVS) resources, the VMware Validated Solutions are pre-defined, tested, and proven architectures designed to simplify deployment and operation of VMware Cloud Foundation (VCF) and related technologies. The key benefits include:
* C: VVS provides best practice design guidance, offering standardized architectures and configurations that align with VMware's recommended practices to ensure optimal performance and reliability.
* E: VVS enables the deployment of technically validated implementations on VMware Cloud Foundation, ensuring that solutions are pre-tested and certified to work seamlessly within the VCF ecosystem, reducing deployment risks.
NEW QUESTION # 49
Which element of a design includes physical server specifications, network configurations, and storage details?
- A. Physical design.
- B. Logical design.
- C. Conceptual design.
- D. Architectural design.
Answer: A
NEW QUESTION # 50
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: B
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 # 51
The following is a list of requirements from a discovery workshop for a new VMware hosting platform system design:
REQ001 - The architecture must support recoverability to the VMware Cloud Disaster Recovery (VCDR) service.
REQ002 - The architecture must support high availability (HA) and fault tolerance (FT).
REQ003 - The architecture must support reducing existing energy consumption and carbon footprint.
REQ004 - The architecture must provide support for network virtualization using distributed virtual switches.
Which requirement would be classified as a business (formerly functional) requirement?
- A. The architecture must provide support for network virtualization using distributed virtual switches.
- B. The architecture must support high availability (HA) and fault tolerance (FT).
- C. The architecture must support recoverability to the VMware Cloud Disaster Recovery (VCDR) service.
- D. The architecture must support reducing existing energy consumption and carbon footprint.
Answer: D
Explanation:
This is a business requirement because it aligns with corporate sustainability goals, focusing on reducing environmental impact. It is a high-level goal that can drive design decisions but is not directly related to the technical function or features of the system.
NEW QUESTION # 52
When performing a vSphere upgrade, what is the best practice to ensure compatibility with existing hardware, software, and third-party plugins?
- A. Disconnect all third-party plugins before starting the upgrade process
- B. Upgrade ESXi hosts first, followed by the vCenter Server
- C. Upgrade the vCenter Server first, followed by ESXi hosts
- D. Perform a clean installation of vSphere components on new hardware
Answer: B
NEW QUESTION # 53
An architect is tasked with planning the design of a new vSphere environment. When commissioned, this environment will be used to migrate an existing set of virtual machines.
An inventory of the existing infrastructure, including configured vCPU, RAM and storage sizes has been provided.
In order for each virtual machine to be migrated, which two data sources with peak and average utilization data are required for sizing- (Choose two.)
- A. %Ready
- B. Disk Write latency
- C. CPU
- D. Ballooned memory
- E. IOPS
Answer: C,E
Explanation:
For each system, capture peak and average utilization for the following items:
- CPU
- RAM
- IOPS
- Network utilization
https://sysarticles.com/vmware-vsphere-analyzing-the-current-state/
NEW QUESTION # 54
An architect is designing a VMware software-defined data center (SDDC) solution based on the following customer requirements:
- The solution must initially support 1,000 virtual machines
- The solution must scale to support the concurrent running of up to 5,000 virtual machines
- The production environment should be delivered across two data centers
- The solution should have a maximum tolerable downtime (MTD) of four hours
- The solution should have a monthly service availability target of 99.8%.
Which two assumptions could the architect make based on the information from the customer to help size the solution? (Choose two.)
- A. The size (CPU/RAM/storage) of the average virtual machine
- B. The average resource utilization of a virtual machine
- C. The guest operating system for each virtual machine
- D. The number of vSphere hosts in a cluster
- E. The size (CPU/RAM/storage) of the vSphere hosts
Answer: A,B
NEW QUESTION # 55
During the creation of a vSphere-based design solution, an architect identifies the following assumption:
The customer will be responsible for providing all licensing for the vSphere platform.
The storage hardware has sufficient capacity for future workload scale.
The data center offers sufficient power, cooling and rack space for workload scale.
When documenting each assumption within the design, which two corresponding pieces of information must the architect also define? (Choose two.)
- A. The storage hardware may not have capacity for future workload scale.
- B. Additional data center locations have been identified. Contracts will be signed to bring the capacity online within 12 months.
- C. The project sponsor is responsible for the data center capacity. The administrator is accountable and the architect is informed.
- D. The data center does not have sufficient capacity to meet the requirements for workload scale.
- E. Additional storage capacity can be procured to expand the solution in the future as needed.
Answer: C,E
NEW QUESTION # 56
Application owners require support of a Microsoft Windows Server Failover Cluster (WSFC).
Their current environment consists of the following components:
- vSphere 7.0 and vSAN 7.0
- External array supporting NFS 3.0/4.1, Server Message Block (SMB) 2.1
- 10 GbE storage connectivity for all devices
The solution architect is tasked with coming up with a solution to meet this requirement while utilizing their existing investments.
Which two recommendations could the architect make- (Choose two.)
- A. Use NFS 4.1 shares for quorum and shared disk
- B. Use vSAN native support for WSFC
- C. Run WSFC on vSAN iSCSI Target Service
- D. Use the SMB 2.1 protocol for sharing disks
- E. Use raw device mapping (RDM)
Answer: B,E
Explanation:
Only Clustered VMDKs, vVols and RDMs allowed for Microsoft Windows Server Failover Cluster (WSFC).
https://kb.vmware.com/s/article/79616
NEW QUESTION # 57
An architect is preparing a design for a company planning digital transformation. During the requirements gathering workshop, the following requirements (REQ) and constraints (CON) are identified:
- REQ01 The platform must host different types of workloads including applications that must be compliant with internal security standard.
- REQ02 The infrastructure must initially run 100 virtual machines.
- REQ03 Ten of the virtual machines must be compliant with internal security standard.
- REQ04 The internal security standard specifies logical network separation for in-scope applications.
- CON01 The customer has already purchased the licenses as part of another project.
- CON02 The customer has five physical servers that must be reused.
Additionally, based on resource requirements, four physical servers will be enough to run all workloads.
Which recommendation should the architect make to meet requirements while minimizing project costs?
- A. Use Network I/O Control to ensure the internal security zone has higher share value
- B. Use a single cluster and ensure that different security zones are separated at least with dedicated VLANs and firewall
- C. Use a single cluster and configure DRS anti-affinity rules to ensure internal security compliant virtual machines cannot migrate between ESXi hosts.
- D. Purchase additional servers and plan separate, isolated clusters for workloads that must be compliant with internal security
Answer: B
Explanation:
VLANs are needed for network logical isolation. The security policy does not talk about compute isolation.
NEW QUESTION # 58
An architect is reviewing the information gathered from an initial requirements gathering workshop.
The following requirements have been identified:
REQ001 - The architecture must support tracking of administrative logons and actions.
REQ002 - The architecture must support class three (three nines or 99.9%) system availability.
REQ003 - The architecture must report on system usage in terms of CPU, memory, storage and network.
REQ004 - The architecture must provide for system recovery point objective (RPO) of two hours.
REQ005 - The architecture must provide access to a precision time protocol (PTP) for time synchronization.
Which two of the listed requirements would be classified as business (formerly functional) requirements?
(Choose two.)
- A. The architecture must support class three (Three nines or 99.9%) system availability.
- B. The architecture must provide access to a precision time protocol (PTP) for time synchronization.
- C. The architecture must support tracking of administrative logons and actions.
- D. The architecture must provide for system recovery point objective (RPO) of two hours.
- E. The architecture must report on system usage in terms of CPU, memory, storage and network.
Answer: A,D
Explanation:
The architecture must support class three (three nines or 99.9%) system availability.
This requirement focuses on the availability of the system, which is a business goal related to ensuring that the system is operational for a specified percentage of time (99.9% uptime). It is a high-level operational requirement that is tied to business continuity and meeting customer service expectations.
The architecture must provide for system recovery point objective (RPO) of two hours.
The RPO is a business requirement related to disaster recovery. It specifies how much data loss is acceptable in the event of a failure. This requirement ensures that business processes are protected by minimizing the potential impact of data loss, making it a key business consideration.
NEW QUESTION # 59
An architect will be updating an existing vSphere data center design.
The following information has been provided:
The new design must carry over existing VLANs for workloads.
The networking for storage must not share the data path with workload traffic.
The new design must be able to add additional VLANS.
The new design must reduce management overhead.
The new replacement servers have two 100 GB network cards.
Which design will meet the requirements for existing workload networks and allow scaling of additional networks?
- A. One vSphere distributed switch (VDS) configuration
The VDS uses aggregated uplinks
Workload and storage traffic on the aggregated uplinks - B. One vSphere standard switch (VSS) configuration
Workload and storage traffic on separate uplinks - C. Two vSphere distributed switches (VDS)
Each VDS uses one uplink as active and the other uplink as passive
Existing and new workload traffic on one VDS and storage traffic on the other VDS - D. One vSphere standard switch (VSS) configuration
Workload and storage traffic on separate uplinks
Answer: A
Explanation:
The customer's requirements include the following:
Carry over existing VLANs for workloads: This can be easily achieved with a vSphere distributed switch (VDS), as it supports the configuration of VLANs and ensures that they can be applied to multiple ESXi hosts across the data center.
Networking for storage must not share the data path with workload traffic: By using aggregated uplinks in the VDS configuration, the architect can easily separate workload traffic and storage traffic by using different uplinks or VLANs. Aggregated uplinks ensure that there is sufficient bandwidth for both workloads and storage, while keeping them logically separated in terms of traffic management.
Add additional VLANs: A VDS supports the dynamic addition of VLANs. New VLANs can be added and managed centrally, reducing the complexity and management overhead when scaling the network.
Reduce management overhead: The use of a single VDS significantly reduces management complexity compared to managing multiple vSphere standard switches (VSS). With VDS, network configuration and management are centralized and simplified across all ESXi hosts.
Given that the new replacement servers have two 100 GB network cards, the aggregated uplinks in a VDS configuration will provide the required network capacity while ensuring that traffic is properly segmented and scalable.
NEW QUESTION # 60
An architect is tasked with reviewing the design of a VMware software-defined data center (SDDC) for a software development company. The platform is used to developing applications and services. It is important that the customer be able to accurately benchmark performance of developed applications.
The platform has recently commissioned new hosts to update the development cluster.
The development cluster host configuration is:
- 4 ESXi hosts with 2 sockets × 16 cores
- 512 GB RAM divided evenly between sockets
- There is no resource contention
The benchmarking cluster host configuration is:
- 8 ESXi hosts with 2 sockets × 8 cores
- 256 GB RAM divided evenly between sockets
- There is no resource contention
The customer is developing an application that includes a database virtual machine. The application developer states that the database virtual machine performs as required only when allocated 8 vCPUs 256 GB RAM. The database virtual machine performance meets the required levels when run from the development cluster. Performance benchmarking for the database virtual machine yields highly variable results when run from the benchmarking cluster. The application cannot be released without reliable performance benchmarking data.
What is a possible reason for the difference in performance test results between the development and benchmarking clusters?
- A. The database tier breaches a single NUMA node boundary for the benchmarking cluster
- B. The development cluster has more available RAM per host
- C. The database tier breaches a single NUMA node boundary for the development cluster
- D. The development cluster can support a lower %Ready time per vCPU
Answer: A
Explanation:
Benchmarking cluster will end up using both Physical VCPU. Since required vCPUs are 8 and
256GB memory hence well suited for single NUMA node on development cluster.
https://blogs.vmware.com/performance/2017/03/virtual-machine-vcpu-and-vnuma-rightsizing- rules-of-thumb.html
NEW QUESTION # 61
An architect is designing a vSphere environment for a customer and learns that the customer has:
- A single vSphere cluster
- Two storage arrays with different RAID capabilities.
Which two design decisions should the architect make to maximize data availability and data performance for this customer? (Choose two.)
- A. Use VM to host DRS rules.
- B. Use Storage DRS.
- C. Use VMDK anti-affinity rules.
- D. Use multiple datastores for heartbeat.
- E. Use a minimum of three storage arrays.
Answer: B,C
NEW QUESTION # 62
An architect is responsible for designing a vSphere-based solution for a customer. The customer has the following requirements:
The solution must provide redundancy and load balancing for storage traffic The solution must tolerate at least one failure There must be no single point of failure in the solution Which three considerations regarding physical host design should the architect analyze when making storage related design decisions? (Choose three.)
- A. Use one quad-port storage host bus adapter (HBA) in each ESXi host
- B. Use four single port storage host bus adapters (HBAs) in each ESXi host
- C. Use an active-active array for Fibre Channel storage-based VMFS datastores
- D. Configure a minimum of two paths to every LUN or datastore
- E. Configure the fixed multi-pathing policy on the ESXi hosts
- F. Configure a minimum of four paths to every LUN or datastore
Answer: C,D,F
Explanation:
Use an active-active array for Fibre Channel storage-based VMFS datastores An active-active array provides redundancy and load balancing by allowing multiple paths to be active at the same time, ensuring better performance and fault tolerance. This supports the requirement for redundancy and no single point of failure by ensuring that storage traffic can be distributed across multiple paths to different storage controllers.
Configure a minimum of two paths to every LUN or datastore
Having multiple paths to every LUN or datastore is essential for ensuring redundancy in the storage path. In case one path fails, the system can continue to function by using the other path, meeting the requirement for tolerance to at least one failure.
Configure a minimum of four paths to every LUN or datastore
Configuring four paths further increases redundancy, ensuring that the storage system can tolerate multiple path failures while still maintaining access to the LUN or datastore. This improves load balancing and provides greater fault tolerance.
NEW QUESTION # 63
A customer is deploying a new cluster and wants to be able to patch and update two hosts in parallel. The cluster must be able to maintain N+1 resiliency across the remaining hosts while patching activities are performed. The current expected utilization of the platform requires a minimum of two hosts to support all of the virtual machines.
What is the minimum number of hosts the customer will require in the cluster in order to meet the required resiliency level?
- A. Five
- B. Four
- C. Six
- D. Seven
Answer: A
Explanation:
cluster must be able to maintain N+1
current expected utilization of the platform requires a minimum of two hosts to support all of the virtual machines.
So, we need 3 hosts to support N+1.
Customer wants to be able to patch and update two hosts in parallel.
So that means 5 hosts are required.
NEW QUESTION # 64
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. A solution architecture diagram with the components and data flow
- B. A design diagram illustrating the configuration and specific attributes, such as IP addresses
- C. An entity relationship diagram describing upstream and downstream dependencies for specific service components
- D. A list of requirements, constraints, and risks
Answer: B
NEW QUESTION # 65
Refer to the exhibit. During a requirements gathering workshop, the customer shares the following about their existing ESXi host virtual networking infrastructure:
The customer confirms that:
- Each ESXi host has approximately 200 virtual machines.
- They want to maximize the number of concurrent virtual machine migrations.
- When placing a host in maintenance mode, it takes a long time to evacuate the virtual machines.
Which two recommendations should the architect make in order to help the customer overcome their challenge- (Choose two.)
- A. Use the 3 pNICs and bundle them in a link aggregation group (LAG) configuration
- B. Configure the network to use MTU for the VMotion VMKernel to 9,000 bytes
- C. Configure the network to use MTU for the VMotion VMKernel to 1,600 bytes
- D. Use 10 GbE NICs instead of 1 GbE
- E. Create an additional standard switch with pNIC3 to use for vMotion
Answer: B,E
Explanation:
B: Configure the network to use MTU for the VMotion VMKernel to 9,000 bytes Use jumbo frames for best vMotion performance.
C: Create an additional standard switch with pNIC3 to use for vMotion
To distribute and allocate more bandwidth to vMotion traffic across several physical NICs, use multiple-NIC vMotion.
E: is good but its additional cost and they need to procure them.
https://docs.vmware.com/en/VMware-vSphere/7.0/com.vmware.vsphere.vcenterhost.doc/GUID-
7DAD15D4-7F41-4913-9F16-567289E22977.html
NEW QUESTION # 66
An architect is updating the design for a vSphere environment.
During a workshop focused on security, the following has been identified:
It has been determined that any configuration of ESXi hosts can only be completed via VMware vCenter The Direct Console User Interface (DCUI) service must be disabled on ESXi hosts The SSH service must be disabled on ESXi hosts Based on the information from the workshop, which element does the architect need to include in the design?
- A. Strict Lockdown Mode
- B. Normal Lockdown Mode with a defined Exception User list
- C. Normal Lockdown Mode
- D. Strict Lockdown Mode with a defined Exception User list
Answer: A
Explanation:
Strict Lockdown Mode is the correct choice because it restricts all access to the ESXi host directly, ensuring that configuration can only be performed through VMware vCenter. This is in line with the requirement that configuration can only be done via vCenter.
Strict Lockdown Mode disables the Direct Console User Interface (DCUI) and SSH services, which aligns with the customer's requirement to have these services disabled for security purposes.
NEW QUESTION # 67
An architect is designing storage for a new vSphere environment to meet the following requirements:
- Asynchronous replication is required between two sites.
- The impact on the storage layer should not impact the performance of the compute layer.
- Each application tier will require different replication attributes.
- Virtual machine live migration across compute and storage must be supported.
- Virtual machine aware back up will be leveraged. Operational management overhead should be minimized.
- Operational automation should be supported.
Which storage design recommendations would meet the requirements?
- A. Two new vSphere clusters enabled with vSAN will be deployed, one at either site.vSAN will be used to provide policy-based management for each application tier. vSphere Replication will be used to replicate the virtual machine data in an asynchronous configuration.
- B. Two new ISCSI storage arrays will be deployed, one at either site. Each application tier will be initially provisioned a new LUN. Data replication will be offloaded to the new arrays.
- C. Two new Fibre Channel storage arrays will be deployed, one at either site. Each application tier will be initially provisioned a new LUN. Data replication will be offloaded to the new arrays.
- D. Two new storage arrays will be deployed, one at either site. vSphere Volumes (vVOLs) will be used to provide policy-based management for each application tier. Data replication will be offloaded to the new arrays.
Answer: D
NEW QUESTION # 68
An architect is responsible for the lifecycle management design for a brownfield vSphere-based solution.
The following information has been provided during initial meetings around the new solution:
Existing heterogeneous server hardware will be used to provide the hosting platform.
The available hardware is:
- 10 servers that contain 2 x 20-Core Intel Xeon processors and 512 GB RAM from Vendor A
- 10 servers that contain 2 x 24-Core Intel Xeon processors and 768 GB RAM from Vendor A
- 20 servers that contain 2 x 16-Core AMD EPYC processors and 512 GB RAM from Vendor B
- 10 servers that contain 1 x 24-Core AMD EPYC processors and 256 GB RAM from Vendor B All of the hardware is currently listed on the VMware Hardware Compatibility List (HCL).
All existing server hardware has 36 months vendor support remaining.
The requirements from the customer are:
REQ001 - The solution must support the hosting of 5,000 workloads spread across two physical sites.
REQ002 - The solution should minimize the number of clusters.
REQ003 - The solution must ensure that there is no impact to service when completing upgrades.
Given the resource requirements needed for the solution, the architect has calculated that all of the existing servers will be required to provide sufficient resources for the new environment. The Intel-based (Vendor A) servers will be deployed to the primary site and both the Intel-based and AMD-based servers (Vendor B) will be deployed to the secondary site.
Which assumption should the architect make to support the lifecycle management of vSphere 8?
- A. The different processor architectures across both sites will remediate against a shared vSphere Lifecycle Manager baseline.
- B. The different processor architectures across both sites will remediate against a single vSphere Lifecycle Manager image.
- C. The different processor architecture within a single site will remediate against a single vSphere Lifecycle Manager image.
- D. The different processor architectures will be located in the same cluster to support vSphere Lifecycle Manager image-based remediation.
Answer: C
Explanation:
vSphere Lifecycle Manager (vLCM) is used to manage ESXi host configurations and software versions in a consistent and streamlined manner. In this case, the architect needs to account for the heterogeneous hardware across two sites (Intel and AMD-based servers).
Since Intel and AMD processors are incompatible for remediation with a single vSphere Lifecycle Manager image, the different processor architectures should be grouped by site (not across sites). Within each site, vLCM can manage a single image per processor architecture, ensuring that each site'shosts with compatible processors are remediated consistently. Intel-based servers will be managed with one image and AMD-based servers with another image, but they can be managed in separate sites.
This approach avoids the issue where heterogeneous hardware with different processor types would need separate images. By keeping them within the same site, the architecture simplifies the lifecycle management and meets the requirement for minimizing clusters and ensuring service availability during upgrades.
NEW QUESTION # 69
An architect is creating a design for a new vSphere solution to meet the following business requirement:
REQ001 - Reduce operational expenditure
Which design decision could the architect include in the logical design to satisfy this requirement?
- A. Use vSphere Standard licenses on all clusters.
- B. Use an N + 1 design to define the required capacity on all clusters.
- C. Use heterogeneous hardware for the hosts in all clusters.
- D. Use vSphere Lifecycle Manager on all clusters.
Answer: D
Explanation:
vSphere Lifecycle Manager helps reduce operational expenditure (OPEX) by automating the patching and management of the vSphere environment. It provides centralized management for host updates, ensuring consistency across the environment and reducing the manual effort required for ongoing operations. This leads to reduced operational overhead, which directly addresses the requirement to reduce OPEX.
NEW QUESTION # 70
......
VMware 3V0-21.23 Exam Syllabus Topics:
| Topic | Details |
|---|---|
| Topic 1 |
|
| Topic 2 |
|
| Topic 3 |
|
Share Latest 3V0-21.23 DUMP Questions and Answers: https://pass4sure.dumps4pdf.com/3V0-21.23-valid-braindumps.html