5V0-23.20 VMware vSphere with Tanzu Specialist Exam

VMware vSphere with Tanzu Specialist
VMware vSphere with Tanzu Specialist exam validates a candidate’s knowledge about how vSphere with Tanzu can be used to orchestrate the delivery of Kubernetes clusters and containerized applications in a vSphere environment as well as their knowledge of deploying and managing VMware vSphere® with Tanzu.

Product: VMware vSphere with Tanzu
Associated Certification: VMware Certified Specialist – vSphere with Tanzu 2022

Exam Overview
Exam : 5V0-23.20 : VMware vSphere with Tanzu Specialist
Language : English
Number of Questions : 62
Format : Single and Multiple Choice, Proctored
Duration : 125 Minutes
Passing Score : 300

Passing Score –
VMware exams are scaled on a range from 100-500, with the determined raw cut score scaled to a value of 300.
Your exam may contain unscored questions in addition to the scored questions, this is a standard testing practice. You will not know which questions are unscored, your exam results will reflect your performance on the scored questions only.

Exam Details:
The VMware vSphere with Tanzu Specialist exam (5V0-23.20) which leads to VMware Certified Specialist – vSphere with Tanzu 2022 badge is a62-item exam, with a passing score of 300 using a scaled method. Exam time is 125 minutes.

Exam Delivery
This is a proctored exam delivered through Pearson VUE. For more information, visit the Pearson VUE website.

Badge Information:
For details and a complete list of requirements and recommendations for attainment, please reference the VMware Education Services – Certification website.

Minimally Qualified Candidate:
The Minimally Qualified Candidate(MQC) has basic knowledge of Kubernetes and containers, at least 12 months of experience with vSphere. The MQC also has experience with NSX-T and network, virtualization and OS experience or education. Candidates should have completed all recommended training courses for this credential and hold a VCP-DCV 2020.
The successful candidate will likely hold additional industry-recognized IT certifications or accreditations.
The MQC should have all the knowledge contained in the exam sections listed below.

Exam Sections:
This exam contains the seven sections below, some of which may NOT be included in the final exam blueprint depending on the exam objectives.
Section 1 Introduction – No testable objectives for this section
Section 2 Introduction to Containers and Kubernetes – No testable objectives for this section

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Section 3 Introduction to vSphere with Tanzu

Objective 3.1: Identify the purpose and role of a Supervisor Cluster.
Objective 3.2: Identify the characteristics of the Control Plane VMs.
Objective 3.3: Given a scenario about a network, identify the workload, management, and front end.
Objective 3.4: Identify the purposes and differences between workload, management, and front end networks.
Objective 3.5: Identify the purpose and role of a Spherelet.
Objective 3.6: Identify the prerequisites and requirements to enable workload management.
Objective 3.7: Identify the characteristics and uses of kubectl CLI.
Objective 3.8: Identify how to authenticate to vSphere with Tanzu using kubectl.
Objective 3.9: Identify how to navigate namespaces using kubectl.
Objective 3.10: Given a scenario, identify the VMware solution for managing TKC.

Section 4 vSphere with Tanzu Core Services

Objective 4.1: Identify the characteristics of vSphere namespaces.
Objective 4.2: Identify the process to create a namespace.
Objective 4.3: Identify the prerequisites to create a namespace.
Objective 4.4: Given a scenario, identify the resources that can be limited in a namespace.
Objective 4.5: Given a scenario, identify the resources that can be limited for a Kubernetes object within a namespace.
Objective 4.6: Given a scenario, identify the roles that can be applied to user of a vSphere namespace.
Objective 4.7: Identify the process to allocate storage to a namespace.
Objective 4.8: Identify the characteristics of vSphere pods and CRX.
Objective 4.9: Identify the process to create a vSphere pod.
Objective 4.10: Identify the methods to scale out a vSphere pod.
Objective 4.11: Identify the characteristics of Cloud Native Storage.
Objective 4.12: Identify the relationship between a storage policy and storage class.
Objective 4.13: Given a scenario, identify the method that should be used to create a storage policy.
Objective 4.14: Identify how to view how much of the quota is being used in a given vSphere namespace.
Objective 4.15: Identify characteristics of persistent volumes in vSphere.
Objective 4.16: Identify use cases for persistent volumes.
Objective 4.17: Identify the process to manage a persistent volume claim.
Objective 4.18: Identify the method to view all the Persistent Volume claims in a vSphere environment.
Objective 4.19: Identify the characteristics of the NSX container plugin.
Objective 4.20: Identify the relationship between vSphere namespaces and NSX segments.
Objective 4.21: Identify the supervisor network topology when using NSX-T.
Objective 4.22: Identify the characteristics of Kubernetes services.
Objective 4.23: Identify the characteristics of Kubernetes network policies.
Objective 4.24: Identify the characteristics and components of vSphere with Tanzu on vSphere distributed switch.
Objective 4.25: Identify the purpose of external load balancer in vSphere with Tanzu.
Objective 4.26: Identify the characteristics of workload load balancers.
Objective 4.27: Identify the characteristics of workload networks.
Objective 4.28: Identify the relationship between workload networks and vSphere Namespaces.
Objective 4.29: Identify the supervisor network topology when using vSphere Distributed Switch Network Topology.
Objective 4.30: Identify the vSphere with Tanzu on vSphere Distributed Switch Network Requirements.
Objective 4.31: Identify the vSphere with Tanzu on vSphere Distributed Switch Prerequisites
Objective 4.32: Identify the process to enable vSphere with Tanzu on vSphere Distributed Switch
Objective 4.33: Identify the characteristics of Harbor.
Objective 4.34: Identify the use cases for an image registry.
Objective 4.35: Identify the process to enable the Harbor image registry.
Objective 4.36: Identify the integration between Harbor and vSphere with Tanzu.
Objective 4.37: Identify the process to push images to Harbor
Objective 4.38: Identify the process to deploy images from Harbor

Section 5 Tanzu Kubernetes Grid Service

Objective 5.1: Identify the characteristics of the Tanzu Kubernetes Grid Service.
Objective 5.2: Identify the differences and similarities of vSphere pods and Tanzu Kubernetes Grid clusters
Objective 5.3: Identify the relationship between supervisor clusters and TKC.
Objective 5.4: Identify the process to enable TKC versions.
Objective 5.5: Identify the characteristics of virtual machine class types for TKC.
Objective 5.6: Identify the process to deploy the TKC.
Objective 5.7: Identify the process to authenticate to a TKC.
Objective 5.8: Identify the process to Scale out a TKC.
Objective 5.9: Identify the process to Scale in a TKC.
Objective 5.10: Identify the process to upgrade a TKC.
Objective 5.11: Given a scenario with requirements, identify the kubectl command that should be used.

Section 6 Monitoring and Troubleshooting in vSphere with Tanzu – No testable objectives for this section


Section 7 vSphere with Tanzu Life Cycle
Objective 7.1: Identify the process to upgrade the vSphere with Tanzu supervisor cluster.
Objective 7.2: Identify the process to perform certificate management for vSphere with Tanzu supervisor cluster.

Question: 1
Identify the API that is not supported by Check Point currently.

A. R81 Management API
B. Identity Awareness Web Services API
C. Open REST API
D. OPSEC SDK

Answer: C

Question: 2
SandBlast Mobile identifies threats in mobile devices by using on-device, network, and cloud-based
algorithms and has four dedicated components that constantly work together to protect mobile
devices and their data. Which component is NOT part of the SandBlast Mobile solution?

A. Management Dashboard
B. Gateway
C. Personal User Storage
D. Behavior Risk Engine

Answer: C

Question: 3
What are the different command sources that allow you to communicate with the API server?

A. SmartView Monitor, API_cli Tool, Gaia CLI, Web Services
B. SmartConsole GUI Console, mgmt_cli Tool, Gaia CLI, Web Services
C. SmartConsole GUI Console, API_cli Tool, Gaia CLI, Web Services
D. API_cli Tool, Gaia CLI, Web Services

Answer: B

Question: 4
What makes Anti-Bot unique compared to other Threat Prevention mechanisms, such as URL Filtering, Anti-Virus, IPS, and Threat Emulation?

A. Anti-Bot is the only countermeasure against unknown malware
B. Anti-Bot is the only protection mechanism which starts a counter-attack against known Command & Control Centers
C. Anti-Bot is the only signature-based method of malware protection.
D. Anti-Bot is a post-infection malware protection to prevent a host from establishing a connection to a Command & Control Center.

Answer: D
 

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