An architect is designing a Business Continuity Disaster Recovery (BCDR) strategy for a Virtual Cloud Foundation (VCF) environment with a management domain and multiple workload domains deployed in two datacenters located in the same city.
During one of the initial workshops with stakeholders, the following information was identified:
The Recovery Time Objective (RTO) for workloads is 24 hours.
The management domain must remain continuously available with Recovery Point Objective (RPO) of 0.
Hardware overhead should be minimized by utilizing standby resources that host test workloads during normal operation.
Operational overhead should be minimized.
Latency between both datacenters is 2 ms.
Which design decision should the architect document to satisfy provided requirements?
An architect is expanding an existing private cloud infrastructure based on VMware Cloud Foundation (VCF). The requirement is to deploy two additional instances of VCF at two separate datacenters within the existing private cloud with minimal additional footprint.
• Datacenter A is 90 miles from the existing VCF fleet instance with a network round trip time of 90ms.
• Datacenter B is 120 miles from the existing VCF fleet instance with a network round trip time of 120ms.
Which design decision would meet the requirement for this expansion?
An architect is designing the network model for a new VMware Cloud Foundation (VCF) solution. During the requirements gathering phase, the customer stated that the VCF solution must comply with the organization's security policy for traffic separation. The customer provided the architect with the following information from the policy:
• The physical network architecture is divided into multiple security zones.
• Traffic is not permitted to traverse between the zones with the exception of pre-approved monitoring tools.
• Physical servers may not be connected to multiple zones via a single network interface.
• Management and Storage traffic must be kept within network zone 1.
• Workload traffic must be kept within network zone 2.
The architect makes a design decision to use two vSphere Distributed Switches per cluster for both the Management and VI Workload domains.
Which two additional design decisions should the architect include in the virtual networking design for the separation of traffic between the vSphere Distributed Switches? (Choose two.)
Which two VCF components are replicated across availability zones in a VMware Cloud Foundation (VCF) Fleet with Disaster Recovery model design with two availability zones?
A customer is deploying VMware Cloud Foundation (VCF) in an enterprise environment. During a series of workshops with stakeholders, the following requirements were identified:
The network solution must be capable of complete logical isolation.
The network solution must be capable of supporting independent upgrade cycles for network stacks.
The network solution must be capable of tenant-specific customization of NSX configurations.
The architect has made the following design decisions:
The solution will consist of a single VCF instance.
The solution will include a management domain and two workload domains.
Based on the scenario, which additional design decision meets all of the stated requirements?
Requirements and constraints:
3 datacenters within 1 mile radius, high-speed LAN connectivity
Private cloud must be hosted at HQ datacenter
Must protect against datacenter loss with no data loss (RPO = 0)
Which design model meets these requirements?
An architect is tasked to plan for an upgrade of an existing vSphere-only deployment utilizing vSAN to VMware Cloud Foundation (VCF).
Which three new infrastructure components are required for the upgrade? (Choose three.)
An architect is responsible for designing a new VMware Cloud Foundation (VCF)-based Private Cloud solution. During the requirements gathering workshop with key customer stakeholders, the following information was captured:
• In the event of a disaster affecting the primary site, all tier 1 production services must be restored to the secondary site within 1 hour.
• In the event of a disaster affecting the primary site, all tier 3 production services must be restored to the secondary site within 8 hours.
The architect documented a requirement for 99.95% high availability to meet the customer's resiliency needs.
Which two physical design decisions will help meet this requirement in the management domain? (Choose two.)
