A、 Separate the two resource profiles into two clusters. The Tier 1 cluster will have fast storage while the Tier 2 cluster will not.
B、 Run both resource profiles on the same cluster with the same host hardware platform.
C、 Separate the two resource profiles into two clusters. The Tier 2 cluster will have faster CPU and more memory while the Tier 1 cluster will have slower CPU and less memory but more disk space
D、 Run both resource profiles on the same cluster with host hardware that has fast CPU, large amounts of memory, and the fastest storage platform.
答案:B
A、 Separate the two resource profiles into two clusters. The Tier 1 cluster will have fast storage while the Tier 2 cluster will not.
B、 Run both resource profiles on the same cluster with the same host hardware platform.
C、 Separate the two resource profiles into two clusters. The Tier 2 cluster will have faster CPU and more memory while the Tier 1 cluster will have slower CPU and less memory but more disk space
D、 Run both resource profiles on the same cluster with host hardware that has fast CPU, large amounts of memory, and the fastest storage platform.
答案:B
A. The database tier breaches a single NUMA node boundary for the benchmarking cluster
B. The database tier breaches a single NUMA node boundary for the development cluster
C. The development cluster can support a lower %Ready time per vCPU
D. The development cluster has more available RAM per host
A. A design diagram illustrating the configuration and specific attributes, such as IP addresses
B. A list of requirements, constraints, and risks
C. A solution architecture diagram with the components and data flow
D. An entity relationship diagram describing upstream and downstream dependencies for specific service components
A. Use different logical networks to ensure traffic is isolated with separate VLANs
B. Use Network I/O Control and ensure appropriate share value is defined for different types of traffic giving priority to the virtual machines traffic
C. Use two dedicated virtual switches with a single adapter each, dedicating one virtual switch for Management, vMotion, vSAN and Fault Tolerance traffic, and the second one for virtual machine traffic
D. Use a NIC teaming policy based on the physical NIC load
A. The vSphere platform must be able to provide a recovery time objective of 30 minutes
B. The vSphere platform must be able to provide a minimum throughput of 400 MB/s
C. The vSphere platform must be able to provide N+1 redundancy
D. The vSphere platform must be able to provide a maximum read latency of 15 ms
E. The vSphere platform must be able to provide a service-level agreement (SLA) of 99,9%
A. A vCenter Server Appliance will be deployed to each site. Unique SSO domains will be created per site.
B. A vCenter Server will be installed on Windows virtual machines deployed to both sites.
C. A vCenter Server Appliance will be deployed to each site.
D. A vCenter Server Appliance will be deployed to the primary site only.
A. RAID controller with Passthru mode
B. RAID controller with RAID 5 mode
C. RAID controller with RAID 10 mode
D. RAID controller with RAID 6 mode
A. All business application virtual machines can be deployed into a single cluster within the primary datacenter.
B. Each distribution hub should be configured with a backup device.
C. The wide area network has sufficient bandwidth to support centralized management.
D. Each cluster will have a minimum of four hosts.
G. iven the information from the customer, which assumption should the architect include in the design?
The following requirements have been noted:
A. Create a local content library in the primary vSphere environment and enable publishing.
B. Create and publish a new subscription to a new subscriber library for each target vSphere environment.
C. Deploy the OVF images to vSphere and clone as an OVF template to a local content library.
D. Deploy the OVF images to vSphere and clone as a VM template to a local content library.
E. Edit the Auto Sync Refresh Interval advanced setting for each subscribed library.
F. Add a new subscriber library from each vSphere environment.
A. The number of 10 GbE capable ports in the vSAN ReadyNode
B. The use of vSAN ReadyNodes
C. The existing network is 10 GbE capable
D. The use of NVMe drives for cache and capacity
During the discovery phase, the following information is documented:
Cluster One.
Six ESXi hosts
vSphere HA with host failures cluster tolerates = 1.
Proactive HA is enabled and set to automated.
Fully Automated vSphere DRS.
Transparent Page Sharing (TPS) is enabled.
Cluster Two.
Eight ESXi hosts.
vSphere HA with host failures cluster tolerates = 1.
Proactive HA is disabled.
Partially Automated vSphere DRS.
Transparent Page Sharing (TPS) is disabled.
Cluster Three.
Three ESXi hosts.
vSphere HA with admission control is disabled.
Proactive HA is not supported.
Transparent Page Sharing (TPS) is disabled.
Virtual Machine Resource Profile 1.
Memory sharing techniques should not be used.
Virtual machines should be automatically restarted in the event of host failure if resources are available.
Automated initial virtual machine placement.
Virtual Machine Resource Profile 2.
Memory sharing techniques can be used.
Virtual machines should be protected from any host hardware failures.
Automated initial virtual machine placement.
Which two recommendations should the architect make for placement of the virtual machines to meet resource profile requirements? Choose two.
A. All virtual machines matching Virtual Machine Resource Profile 2 should be placed on Cluster One.
B. All virtual machines matching Virtual Machine Resource Profile 1 should be placed on Cluster One.
C. All virtual machines matching Virtual Machine Resource Profile 2 should be placed on Cluster Two.
D. All virtual machines matching Virtual Machine Resource Profile 1 should be placed on Cluster Two.
E. All virtual machines matching Virtual Machine Resource Profile 2 should be placed on Cluster Three