3V0-21.21 Advanced Design VMware vSphere 7.x Exam
EXAM NUMBER : 3V0-21.21
PRODUCT : vSphere 7.x
EXAM LANGUAGE : English
Associated Certification : VCAP-DCV Design 2021
Exam Duration : 150 minutes
Number of Questions: 60
Passing Score : 300 (scaled) Learn More
Format : Single and Multiple Choice, Proctored
EXAM OVERVIEW
This exam tests a candidate’s ability to apply design principles to develop a vSphere 7.x conceptual design given a set of customer requirements, determine the functional and non-functional requirements needed to create a logical design, and architect a physical design using these elements.
Exam Details (Last Updated: 12/4/2020)
The Advanced Design VMware vSphere 7.x Exam (3V0-21.21), which leads to the VMware Certified Advanced Professional
– Data Center Virtualization Design 2021 certification, is a 60-item exam with a passing score of 300 using a scaled method. Candidates are given an exam time of 150 minutes, which includes adequate time to complete the exam for nonnative
English speakers.
Exam Delivery
This is a proctored exam delivered through Pearson VUE. For more information, visit the Pearson VUE website.
Certification Information
For details and a complete list of requirements and recommendations for attainment, please reference the VMware Education Services – Certification website.
Minimally Qualified Candidate
A minimally qualified or acceptable candidate (MQC) has about 12 months experience designing and deploying a vSphere environment. The MQC is typically a solution architect, capable of developing a conceptual design given a set of customer
requirements, determining the functional requirements needed to create a logical design, and architecting a physical design using these elements. The MQC has knowledge of compute, storage, networking and security, design principles,
capacity planning, disaster recovery and scalability, as well as sizing and compatibility. The MQC may occasionally require assistance in carrying out more complex tasks.
Exam Sections
VMware exam blueprint sections are now standardized to the seven sections below, some of which may NOT be included in the final exam blueprint depending on the exam objectives.
Section 1 – Architecture and Technologies
Section 2 – Products and Solutions
Section 3 – Planning and Designing
Section 4 – Installing, Configuring, and Setup
Section 5 – Performance-tuning, Optimization, and Upgrades
Section 6 – Troubleshooting and Repairing
Section 7 – Administrative and Operational Tasks
If a section does not have testable objectives in this version of the exam, it will be noted below, accordingly. The objective numbering may be referenced in your score report at the end of your testing event for further preparation should a retake
of the exam be necessary.
Sections Included in this Exam
Section 1 –Architectures and Technologies
Objective 1.1 – Differentiate between conceptual, logical and physical elements of a design
Objective 1.2 – Differentiate between functional and non-functional requirements
Objective 1.3 – Differentiate between Availability, Manageability, Performance, Recoverability, Scalability and Security (AMPRSS)
Section 2 – VMware Products and Solutions – There are no testable objectives for this section.
Section 3 – Planning and Designing
Objective 3.1 – Gather and analyze functional requirements
3.1.1 – Gather and analyze service-level agreement (SLA) requirements
3.1.2 – Gather network, storage and compute requirements
3.1.3 – Gather workload design requirements
3.1.4 – Gather capacity and performance requirements
Objective 3.2 – Gather and analyze non-functional requirements
3.2.1 – Determine security requirements for a vSphere design
3.2.2 – Determine data protection requirements for a vSphere design
3.2.3 – Determine business continuity requirements for a vSphere design
3.2.4 – Determine disaster recovery requirements for a vSphere design
3.2.5 – Determine compliance requirements for a vSphere design
Objective 3.3 – Determine risks, constraints and assumptions for a design
Objective 3.4 – Create a vCenter Server logical design
3.4.1 – Design a single-site, multi-site, multi-region deployment
3.4.2 – Define a virtual data center design
3.4.3 – Determine availability requirements for vCenter Server
Objective 3.5 – Create a vSphere cluster logical design
3.5.1. – Differentiate between workload or management clusters
3.5.2. – Define a workload cluster design
Objective 3.6 – Create a vSphere host logical design
3.6.1 – Recommend compute resource requirements
3.6.2 – Identify and address scalability requirements
3.6.3 – Determine hypervisor deployment method
Objective 3.7 – Create a vSphere network logical design
3.7.1 – Determine network protocol needs
3.7.2 – Design network segregation for different traffic types
3.7.3 – Determine physical and virtual networking topology
Objective 3.8 – Create a vSphere storage logical design
3.8.1 – Determine storage topology needs (e.g., SAN, local, Hyper-Converged Infrastructure or HCI)
3.8.2 – Evaluate storage protocols based on a given scenario/requirements
3.8.3 – Determine different storage segregation techniques based on a given scenario
3.8.4 – Determine physical and storage connectivity topology
Objective 3.9 – Create a workload logical design
3.9.1 – Determine workload sizing
3.9.2 – Determine workload placement
Objective 3.10 – Create a vCenter Server physical design
3.10.1 – Determine the correct sizing for vCenter Server based on workload requirements
3.10.2 – Map clusters to logical design
Objective 3.11 – Create a vSphere cluster physical design
3.11.1 – Determine the appropriate Distributed Resource Scheduler (DRS), Predictive Distributed Resource
Scheduler (pDRS), and Distributed Power Management (DPM) configurations based on requirements
3.11.2 – Determine the appropriate Proactive High Availability/High Availability configurations based on requirements
3.11.3 – Determine the appropriate vSphere Enhanced vMotion Compatibility (EVC) configurations based on requirements
3.11.4 – Determine the appropriate cluster size based on requirements
Objective 3.12 – Create a vSphere host physical design
3.12.1 – Identify the hypervisor deployment method
3.12.2 – Determine the appropriate host size based on requirements
3.12.3 – Determine the appropriate host configurations (network adapters, local storage, RAID controller) based on requirements
Objective 3.13 – Create a vSphere network physical design
3.13.1 – Determine bandwidth needs based on requirements
3.13.2 – Determine NIC teaming and load balancing methods
3.13.3 – Design VMkernel adapters based on requirements
3.13.4 – Determine Network I/O Control (NIOC) configurations based on requirements
3.13.5 – Determine switch type (standard vs distributed) based on requirements
Objective 3.14 – Create a vSphere storage physical design
3.14.1 – Determine storage multi-pathing and load balancing methods
3.14.2 – Determine the Storage DRS configuration
3.14.3 – Determine appropriate datastore configurations based on requirements
3.14.4 – Determine the physical storage design based on requirements
3.14.5 – Determine appropriate storage policy based on requirements
Objective 3.15 – Create a workload physical design based on application requirements
3.15.1 – Determine workload virtual hardware (e.g., number of network interface cards (NICs) and type of NIC)
3.15.2 – Design content library topology
Section 4 – Installing, Configuring, and Setup – There are no testable objectives for this section.
Section 5 – Performance-tuning, Optimization, Upgrades – There are no testable objectives for this section.
Section 6 – Troubleshooting and Repairing – There are no testable objectives for this section.
Section 7 – Administrative and Operational Tasks – There are no testable objectives for this section.
QUESTION 1
Which two of the listed requirements would be classified as performance non-functional requirements? (Choose two.)
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%
Correct Answer: AD
QUESTION 2
An architect will be taking over control of a former Linux server fleet and repurposing the hardware into a new vSphere cluster. The current environment is already connected to the network but the hosts do not have any
local disks. Since the fleet hardware is uniform, the architect can use a single ESXi image. All hosts within the cluster have the same CPU and memory capacity.
Which ESXi deployment method should the architect use?
A. Stateless cached vSphere Auto Deploy
B. Stateless vSphere Auto Deploy
C. Manual install of each ESXi host with an image from USB
D. Stateful vSphere Auto Deploy
Correct Answer: A
QUESTION 3
An architect is finalizing the design for a new vCenter Server High Availability deployment.
What is one thing the architect must document in the design?
A. The load balancing algorithm used by the Management Distributed Virtual Switches (DVS)
B. The SSH configuration settings for the vCenter Server’s active node
C. The vCenter Management Network IPv4 addresses for the witness node vCenter Server
D. The details of each of the vCenter Server licenses for active, passive and witness nodes
Correct Answer: A
QUESTION 4
An architect is considering placement of virtual machines within an existing VMware software-defined data center (SDDC).
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 should not be used
Virtual machines should be automatically restarted in the event of host failure regardless of available resources
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.
Correct Answer: BE
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