CWNA-108 Certified Wireless Network Administrator Exam

 

CWNA-108 Objectives

Introduction
The Certified Wireless Network Administrator (CWNA) understands standards and operations of 802.11 wireless networks. Responsibilities include deploying, managing, monitoring, and basic troubleshooting of these networks. The CWNA has the ability to describe devices and operations of current WLAN technologies.

The CWNA exam has no prerequisites; however, the following are recommended before attempting the CWNA exam:
● Basic knowledge of networking (routers, switches, cabling, etc.)
● Basic knowledge of TCP/IP
● At least 1 year of work experience with wireless LAN technologies

The skills and knowledge measured by this examination are derived from a Job Task Analysis (JTA) involving wireless networking experts (CWNEs) and professionals. The results of this JTA were used in weighing the subject areas and ensuring that the weighting is representative of the relative importance of the content.
When you pass the CWNA exam, you earn credit towards the CWSP, CWDP, CWAP, and CWNE certifications and you earn the CWNA certification.
The following chart provides the breakdown of the exam as to the distribution of questions within each knowledge domain.

Radio Frequency (RF) Technologies
WLAN Regulations and Standards
WLAN Protocols and Devices
WLAN Network Architecture and Design Concepts
WLAN Network Security
RF Validation
WLAN Troubleshooting

CWNP Authorized Materials Use Policy
CWNP does not condone the use of unauthorized 'training materials' such as 'brain dumps'. Individuals who utilize such materials to pass CWNP exams will have their certifications revoked. In an effort to more clearly communicate CWNP's policy on use of unauthorized study materials, CWNP directs all certification candidates to the CWNP Candidate Conduct Policy at:


1.0 Radio Frequency (RF) Technologies – 15%
1.1 Define and explain the basic characteristics of RF and RF behavior
• Wavelength, frequency, amplitude, phase, sine waves
• RF propagation and coverage
• Reflection, refraction, diffraction and scattering
• Multipath and RF interference
• Gain and loss
• Amplification
• Attenuation
• Absorption
• Voltage Standing Wave Ratio (VSWR)
• Return Loss
• Free Space Path Loss (FSPL)

1.2 Apply the basic concepts of RF mathematics and measurement
• Watt and milliwatt
• Decibel (dB)
• dBm and dBi
• Noise floor
• SNR
• RSSI
• dBm to mW conversion rules of 10 and 3
• Equivalent Isotropically Radiated Power (EIRP)

1.3 Identify RF signal characteristics as they relate to antennas.
• RF and physical line of sight and Fresnel zone clearance
• Beamwidths
• Passive gain
• Polarization
• Antenna diversity types
• Radio chains
• Spatial multiplexing (SM)
• Transmit Beamforming (TxBF)
• Maximal Ratio Combining (MRC)
• MIMO

1.4 Explain and apply the functionality of RF antennas, antenna systems, and accessories available
• Omni-directional antennas
• Semi-directional antennas
• Highly directional antennas
• Reading Azimuth and Elevation charts for different antenna types
• Antenna orientation
• RF cables and connectors
• Lightning arrestors and grounding rods/wires

2.0 WLAN Regulations and Standards – 20%
2.1 Explain the roles of WLAN and networking industry organizations
• IEEE
• Wi-Fi Alliance
• IETF
• Regulatory domains and agencies

2.2 Explain and apply the various Physical Layer (PHY) solutions of the IEEE 802.11-2016 standard as amended including supported channel widths, spatial streams, data rates.
• DSSS – 802.11
• HR-DSSS – 802.11b
• OFDM – 802.11a
• ERP – 802.11g
• Wi-Fi 4 - HT – 802.11n
• Wi-Fi 5 - VHT – 802.11ac
• Wi-Fi 6 - HE - 802.11ax

2.3 Understand spread spectrum technologies, Modulation and Coding Schemes (MCS)
• DSSS
• OFDM
• OFDMA and Resource Units
• BPSK
• QPSK
• QAM (16, 64, 256,1024)

2.4 Identify and apply 802.11 WLAN functional concepts
• Primary channels
• Adjacent overlapping and non-overlapping channels
• Throughput vs. data rate
• Bandwidth
• Guard Interval

2.5 Describe the OSI model layers affected by the 802.11-2016 standard and amendments

2.6 Identify and comply with regulatory domain requirements and constraints (specifically in 2.4 GHz and 5 GHz)
• Frequency bands used by the 802.11 PHYs
• Available channels
• Regulatory power constraints
• Dynamic Frequency Selection (DFS)
• Transmit Power Control (TPC)

2.7 Explain basic use case scenarios for 802.11 wireless networks
• Wireless LAN (WLAN) – BSS and ESS
• Wireless bridging
• Wireless Ad-Hoc (IBSS)
• Wireless Mesh

3.0 WLAN Protocols and Devices – 20%
3.1 Describe the components and functions that make up an 802.11 wireless service set
• Stations (STAs)
• Basic Service Set (BSS) (Infrastructure mode)
• SSID
• BSSID
• Extended Service Set (ESS)
• IBSS (Ad-Hoc)
• Distribution System (DS)
• Distribution System Media (DSM)

3.2 Define terminology related to the 802.11 MAC and PHY
• MSDU, MPDU, PSDU, and PPDU
• A-MSDU and A-MPDU
• PHY preamble and header
3.3 Identify and explain the MAC frame format
• MAC frame format
• MAC addressing
3.4 Identify and explain the purpose of the three main 802.11 frame types
• Management
• Control
• Data

3.5 Explain the process used to locate and connect to a WLAN
• Scanning (active and passive)
• Authentication
• Association
• Open System Authentication and Shared Key authentication
• Connecting to 802.1X/EAP and Pre-Shared Key authentication networks
• BSS selection
• Connecting to hidden SSIDs

3.6 Explain 802.11 channel access methods
• DCF
• EDCA
• RTS/CTS
• CTS-to-Self
• NAV
• Interframe spaces (SIFS, DIFS, EIFS, AIFS)
• Physical carrier sense and virtual carrier sense
• Hidden node

3.7 Explain 802.11 MAC operations
• Roaming
• Power save modes and frame buffering
• Protection mechanisms

3.8 Describe features of, select, and install WLAN devices, control, and management systems
• Access Points (APs)
• WLAN controllers
• Wireless network management systems
• Wireless bridge and mesh APs
• Client devices

4.0 WLAN Network Architecture and Design Concepts– 15%

4.1 Describe and implement Power over Ethernet (PoE) 802.3af, 802.3at, 802.3bt
• Power Source Equipment
• Powered Device
• Midspan and endpoint PSEs
• Power classes to include power differences between PSE and PD
• Power budgets and powered port density

4.2 Define and describe differences, advantages and constraints of the different wireless LAN architectures
• Centralized data forwarding
• Distributed data forwarding
• Control, Management and Data planes
• Scalability and availability solutions
• Tunneling, QoS and VLANs

4.3 Describe design considerations for common deployment scenarios in wireless such as coverage requirements, roaming considerations, throughput, capacity and security
• Design considerations for data
• Design considerations for voice
• Design considerations for video
• Design considerations for location services including Real-Time Location Services (RTLS)
• Design considerations for highly mobile devices (e.g. tablets and smartphones)
• Capacity planning for high and very high-density environments
• Design considerations for guest access/BYOD
• Design considerations for supporting legacy 802.11 devices

4.4 Demonstrate awareness of common proprietary features in wireless networks.
• AirTime Fairness
• Band steering
• Dynamic power and channel management features

4.5 Determine and configure required network services supporting the wireless network
• DHCP for client addressing, AP addressing and/or controller discovery
• DNS for address resolution for clients and APs
• Time synchronization protocols (e.g. NTP, SNTP)
• VLANs for segmentation
• Authentication services (e.g. RADIUS, LDAP)
• Access Control Lists for segmentation
• Wired network capacity requirements

5.0 WLAN Network Security – 10%

5.1 Identify weak security options that should not be used in enterprise WLANs
• WEP
• Shared Key authentication
• SSID hiding as a security mechanism
• MAC filtering
• Use of deprecated security methods (e.g. WPA and/or WPA2 with TKIP)
• Wi-Fi Protected Setup (WPS)

5.2 Identify and configure effective security mechanisms for enterprise WLANs
• Application of AES with CCMP for encryption and integrity
• WPA2-Personal including limitations and best practices for pre-shared (PSK) use
• WPA2-Enterprise -configuring wireless networks to use 802.1X including connecting to RADIUS servers and appropriate EAP methods

5.3 Understand basic concepts of WPA3 and Opportunistic Wireless Encryption (OWE) and enhancements compared to WPA2
• Understand basic security enhancements in WPA3 vs. WPA2
• Understand basic security enhancements of encryption and integrity in WPA3 (e.g. CCMP, GCMP, AES)
• Simultaneous Authentication of Equals (SAE) in WPA3 as an enhancement for legacy pre-shared key technology
• Understand the purpose of Opportunistic Wireless Encryption (OWE) for public and guest networks

5.4 Describe common security options and tools used in wireless networks
• Access control solutions (e.g. captive portals, NAC, BYOD)
• Protected management frames
• Fast Secure Roaming methods
• Wireless Intrusion Prevention System (WIPS) and/or rogue AP detection
• Protocol and spectrum analyzers
• Best practices in secure management protocols (e.g. encrypted management HTTPS, SNMPv3, SSH2, VPN and password management)

6.0 RF Validation – 10%
6.1 Verify and document that design requirements are met including coverage, throughput, roaming, and connectivity with a post-implementation validation survey
6.2 Locate and identify sources of RF interference
• Identify RF disruption from 802.11 wireless devices including contention vs. interference and causes/sources of both including co-channel contention (CCC), overlapping channels, and 802.11 wireless device proximity
• Identify sources of RF interference from non-802.11 wireless devices based on the investigation of airtime and frequency utilization
• Understand interference mitigation options including removal of interference source or change of wireless channel usage

6.3 Perform application testing to validate WLAN performance
• Network and service availability
• VoIP testing
• Real-time application testing
• Throughput testing

6.4 Understand and use the basic features of validation tools
• Use of throughput testers for validation tasks
• Use of wireless validation software (specifically survey software and wireless scanners)
• Use of protocol analyzers for validation tasks
• Use of spectrum analyzers for validation tasks

7.0 WLAN Troubleshooting – 10%
7.1 Describe and apply common troubleshooting tools used in WLANs
• Use of protocol analyzers for troubleshooting tasks
• Use of spectrum analyzers for identifying sources of interference
• Use of management, monitoring and logging systems for troubleshooting tasks
• Use of wireless LAN scanners for troubleshooting tasks

7.2 Identify and troubleshoot common wireless issues
• Identify causes of insufficient throughput in the wireless distribution systems including LAN port speed/duplex misconfigurations, insufficient PoE budget, and insufficient Internet or WAN bandwidth
• Identify and solve RF interference using spectrum analyzers
• Identify wireless performance issues using SNR, retransmissions, and airtime utilization statistics
• Identify causes of wireless issues related to network services including DHCP, DNS, and time protocols including using native interface and IP configuration tools (e.g. pings, DNS lookups, interface configuration)
• Identify wireless issues related to security configuration mismatches

QUESTION 1
What can an impedance mismatch in the RF cables and connectors cause?

A. Increased range of the RF signal
B. Fewer MCS values in the MCS table
C. Increased amplitude of the RF signal
D. Excessive VSWR

Correct Answer: D

QUESTION 2
A WLAN transmitter that emits a 50 mW signal is connected to a cable with 3 dB loss. If the cable is connected
to an antenna with 9dBi gain, what is the EIRP at the antenna element?

A. 26 dBm
B. 13 dBm
C. 23 dBm
D. 10 dBm

Correct Answer: C

QUESTION 3
In a long-distance RF link, what statement about Fade Margin is true?

A. A Fade Margin is unnecessary on a long-distance RF link if more than 80% of the first Fresnel zone is clear of obstructions.
B. The Fade Margin is a measurement of signal loss through free space and is a function of frequency and distance.
C. Fade Margin is an additional pad of signal strength designed into the RF system to compensate for unpredictable signal fading.
D. The Fade Margin of a long-distance radio link should be equivalent to the receiver’s low noise filter gain.

Correct Answer: C

 

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2V0-21.20 Professional VMware vSphere 7.x Exam

 

EXAM OVERVIEW
The Professional VMware vSphere 7.x (2V0-21.20) Exam validates that an individual can implement, manage, and troubleshoot a VMware vSphere® 7 infrastructure, which includes VMware ESXi™ 7 and VMware vCenter Server® 7.
Exam Details (Last Updated: 7/22/2020)

The Professional VMware vSphere 7.x Exam (2V0-21.20), which leads to the VMware Certified Professional – Data Center Virtualization 2020 certification, is a 70-item exam with a passing score of 300 using a scaled method. Candidates are given an exam time of 130 minutes, which includes adequate time to complete the exam for non-native 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 candidate (MQC) has 6-12 months hands-on experience implementing, managing and troubleshooting a vSphere 7 infrastructure. They are typically administrators, capable of performing deployment and administration of a virtual infrastructure using vSphere. The candidate also has working knowledge of storage, networking, hardware, security, business continuity and disaster recovery concepts.

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 – Identify the pre-requisites and components for a vSphere implementation
Objective 1.2 – Describe vCenter Server topology
Objective 1.3 – Identify and differentiate storage access protocols for vSphere (NFS, iSCSI, SAN, etc.)
1.3.1 – Describe storage datastore types for vSphere
1.3.2 – Explain the importance of advanced storage configuration (vSphere Storage APIs for Storage Awareness (VASA), vSphere Storage APIs Array Integration (VAAI), etc.)
1.3.3 – Describe storage policies
1.3.4 – Describe basic storage concepts in K8s, vSAN and vSphere Virtual Volumes (vVols)
Objective 1.4 – Differentiate between vSphere Network I/O Control (NIOC) and vSphere Storage I/O Control (SIOC)
Objective 1.5 – Describe instant clone architecture and use cases
Objective 1.6 – Describe ESXi cluster concepts
1.6.1 – Describe Distributed Resource Scheduler (DRS)
1.6.2 – Describe vSphere Enhanced vMotion Compatibility (EVC)
1.6.3 – Describe how Distributed Resource Scheduler (DRS) scores virtual machines
1.6.4 – Describe vSphere High Availability
1.6.5 – Describe datastore clusters

Objective 1.7 – Identify vSphere distributed switch and vSphere standard switch capabilities
1.7.1 – Describe VMkernel networking
1.7.2 – Manage networking on multiple hosts with vSphere distributed switch
1.7.3 – Describe networking policies
1.7.4 – Manage Network I/O Control (NIOC) on a vSphere distributed switch
Objective 1.8 – Describe vSphere Lifecycle Manager concepts (baselines, cluster images, etc.)
Objective 1.9 – Describe the basics of vSAN as primary storage
1.9.1 – Identify basic vSAN requirements(networking, disk count + type)
Objective 1.10 – Describe the vSphere Trust Authority architecture
Objective 1.11 – Explain Software Guard Extensions (SGX)
Section 2 – VMware Products and Solutions
Objective 2.1 – Describe the role of vSphere in the software-defined data center (SDDC)
Objective 2.2 – Identify use cases for vCloud Foundation
Objective 2.3 – Identify migration options
Objective 2.4 – Identify DR use cases
Objective 2.5 – Describe vSphere integration with VMware Skyline
Section 3 – Planning and Designing - There are no testable objectives for this section.
Section 4 – Installing, Configuring, and Setup
Objective 4.1 – Describe single sign-on (SSO) deployment topology
4.1.1 – Configure a single sign-on (SSO) domain
4.1.2 – Join an existing single sign-on (SSO) domain
Objective 4.2 – Configure VSS advanced virtual networking options
Objective 4.3 – Set up identity sources
4.3.1 – Configure Identity Federation
4.3.2 – Configure Lightweight Directory Access Protocol (LDAP) integration
4.3.3 – Configure Active Directory integration
Objective 4.4 – Deploy and configure vCenter Server Appliance
Objective 4.5 – Create and configure VMware High Availability and advanced options (Admission Control, Proactive High Availability, etc.)
Objective 4.6 – Deploy and configure vCenter Server High Availability
Objective 4.7 – Set up content library
Objective 4.8 – Configure vCenter Server file-based backup
Objective 4.9 – Analyze basic log output from vSphere products
Objective 4.10 – Configure vSphere Trust Authority
Objective 4.11 – Configure vSphere certificates
4.11.1 – Describe Enterprise PKIs role for SSL certificates
Objective 4.12 – Configure vSphere Lifecycle Manager/VMware Update Manager (VUM)
Objective 4.13 – Securely Boot ESXi hosts
Objective 4.14 – Configure different network stacks
Objective 4.15 – Configure Host Profiles
Objective 4.16 – Identify boot options
4.16.1 – Configure Quick Boot
Section 5 – Performance-tuning, Optimization, Upgrades
Objective 5.1 – Identify resource pools use cases
5.1.1 – Explain shares, limits and reservations (resource management)
Objective 5.2 – Monitor resources of vCenter Server Appliance and vSphere environment
Objective 5.3 – Identify and use tools for performance monitoring
Objective 5.4 – Configure Network I/O Control (NIOC)
Objective 5.5 – Configure Storage I/O Control (SIOC)
Objective 5.6 – Explain the performance impact of maintaining virtual machine snapshots
Objective 5.7 – Plan for upgrading various vSphere components
Section 6 – Troubleshooting and Repairing - There are no testable objectives for this section.
Section 7 – Administrative and Operational Tasks
Objective 7.1 – Create and manage virtual machine snapshots
Objective 7.2 – Create virtual machines using different methods (Open Virtual Machine Format (OVF) templates, content library, etc.)
Objective 7.3 – Manage virtual machines
Objective 7.4 – Manage storage (datastores, storage policies, etc.)
7.4.1 – Configure and modify datastores (expand/upgrade existing datastore, etc.)
7.4.2 – Create virtual machine storage policies
7.4.3 – Configure storage cluster options
Objective 7.5 – Create Distributed Resource Scheduler (DRS) affinity and anti-affinity rules for common use cases
Objective 7.6 – Configure and perform different types of migrations
Objective 7.7 – Configure role-based user management
Objective 7.8 – Configure and manage the options for securing a vSphere environment (certificates, virtual machine encryption, virtual Trusted Platform Module, lock-down mode, virtualization-based security, etc.)
Objective 7.9 – Configure and manage host profiles
Objective 7.10 – Utilize baselines to perform updates and upgrades
Objective 7.11 – Utilize vSphere Lifecycle Manager
7.11.1 – Describe Firmware upgrades for ESXi
7.11.2 – Describe ESXi updates
7.11.3 – Describe component and driver updates for ESXi
7.11.4 – Describe hardware compatibility check
7.11.5 – Describe ESXi cluster image export functionality
Objective 7.12 – Configure alarms

QUESTION 1
What are two supported ESXi boot options? (Choose two.)

A. NFS
B. iSCSI
C. vSAN
D. SAN
E. vSphere Virtual Volumes

Correct Answer: AB

QUESTION 2
An administrator receives an escalation to investigate a low disk space alarm on a datastore. The
administrator discovers that a snapshot has been accidentally taken on a production, write-intensive database
server. The snapshot has grown to nearly 1 TB in size in less than an hour and continues growing every second.
Which behavior should the administrator expect while deleting the snapshot? (Choose the best answer.)

A. ESXi will create a virtual RAM disk to cache ongoing database write activity; performance impact will be limited.
B. ESXi will commit the snapshot delta disk into the base disk; ongoing database write activity could result in long stun times.
C. ESXi will merge the snapshot delta disk into the base disk; the virtual machine will be briefly stunned.
D. ESXi will instantly switch from the base disk to the snapshot delta disk with no performance impact.

Correct Answer: A

QUESTION 3
Which two storage technologies can an administrator use to deploy the Virtual Machine File System (VMFS)?
(Choose two.)

A. Fibre Channel storage
B. vSAN storage
C. Virtual Volumes storage
D. NFS storage
E. iSCSI storage

Correct Answer: AE

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2V0-61.20 VMware Professional Workspace ONE Exam

 

EXAM OVERVIEW
The VCP-DW 2020 certification validates that a badge earner can install, configure, manage, maintain, and and perform basic troubleshooting of VMware Workspace ONE and related solutions, as well as properly identify and differentiate any needed supporting products and components.

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
The Minimally Qualified Candidate has a working knowledge of the VMware Workspace ONE platform. The MQC installs, configures, manages, maintains, and performs basic troubleshooting of VMware Workspace ONE 20.x and related solutions using publicly available documents. The MQC is knowledgeable of software, infrastructure design, and implementation. The MQC is familiar with standard operating systems across devices, productivity applications, and technologies related to Workspace ONE configuration. The MQC has a minimum of 6 months of general IT experience and typically 6 months of VMware experience installing and configuring the Workspace ONE platform. The MQC must have all the knowledge contained in the VCP-Digital Workspace exam blueprint.

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

Section 1 - Architectures and Technologies
Objective 1.1 - Differentiate and illustrate the differences between physical architecture and logical architecture
Objective 1.2 - Differentiate between cloud computing and on-prem EMM + Identity Access Management solutions
Objective 1.3 - Differentiate among OEM Providers
Objective 1.4 - Describe disaster recovery and high availability
Objective 1.5 - Describe and define Identity and Access Management Concepts
Objective 1.6 -Differentiate between traditional management and modern management (Windows 10)
Objective 1.7 - Explain authentication methods (2 factor authentication, Kerberos, Identity Bridging, SAML, SAML Transformation, Mobile SSO, etc.)

Section 2 - Products and Solutions
Objective 2.1 - Identify UEM + IDM components and sub-components (Enterprise System Connector, Secure Email Gateway, ENS, etc.)
Objective 2.2 - Differentiate and match use case with VMware products based on best practices
Objective 2.3 - Identify and describe VMware Disaster Recovery, HA, Scalability (UEM, IDM, Enterprise System Connector, Secure Email Gateway, etc.)
Objective 2.4 - Explain Workspace ONE intelligence, AirWatch SDK
Section 3 - Planning and Designing - There are no testable objectives for this section.

Section 4 - Installing, Configuring, and Setup
Objective 4.1 - Identify infrastructure requirements (minimums, maximums, and recommended sizing requirements, OS version support, database versions, email infrastructure, directory services, etc.)
Objective 4.2 - Install and configure UEM components (ESC, ACC, IDM-C, UAG, SEG)
Objective 4.3 - Configure Edge Services (Tunnel and Content Gateway)
Objective 4.4 - Preliminary configuration of UEM environment
Objective 4.5 - Install and configure IDM components (native connectors, configure directories and IDPs)
Objective 4.6 - Configure Directory Services (users and groups)
Objective 4.7 - Configure APIs
Objective 4.8 - Configure Certificate Authority Integration
Objective 4.9 - Configure Mobile Email Management (PowerShell integration, SEG, G-Suite, Office 365, Microsoft Exchange)

Section 5 - Performance-tuning, Optimization, Upgrades - There are no testable objectives for this section.

Section 6 - Troubleshooting and Repairing
Objective 6.1 - Match logs to use cases
Objective 6.2 - Detect networking configuration issues (DNS, NTP, etc.)
Objective 6.3 - Identify Endpoint enrollment and management issues (connectivity)
Objective 6.4 - Identify End-user App Authentication issues
Objective 6.5 - Identify console administration issues

Section 7 - Administrative and Operational Tasks
Objective 7.1 - Configure and manage device profiles for mobile and desktop endpoint OS (iOS, Android, Windows 10)
Objective 7.2 - Configure and manage certificate authority and certificate templates
Objective 7.3 - Manage Assignment Groups and Organization Groups
Objective 7.4 - Add and Manage Users and Admin groups (Basic, Directory)
Objective 7.5 - Add, assign, and manage applications
Objective 7.6 - Add, assign, and manage content
Objective 7.7 - Configure and manage email policies
Objective 7.8 - Configure and manage compliance policies for mobile and desktop endpoints
Objective 7.9 - Perform device management on device endpoints
Objective 7.10 - Add and Manage SaaS, Web Applications on VMware IDM
Objective 7.11 - Create reporting (UEM reporting, IDM reporting, Workspace ONE Intelligence)
Objective 7.12 - Manage user and Admin access on vIDM Console
Objective 7.13 - Add and manage conditional access, access policy in vIDM
Objective 7.14 - Manage authentication methods in vIDM (built-in IDP)
Objective 7.15 - Configure privacy and security controls
Objective 7.16 - Create automation (Workspace ONE Intelligence)
Objective 7.17 - Create reports and dashboards using Workspace ONE Intelligence

QUESTION 1
Which two authentication methods are available in the Workspace ONE UEM console? (Choose two.)

A. SAML
B. Azure AD
C. CAPTCHAs
D. OAUTH

E. Certificate Based Authentication

Correct Answer: DE

QUESTION 2
Which Workspace ONE UEM feature can assist in sending event log information to a Security Information and Event Management (SIEM) tool?

A. Relay Server Integration
B. Syslog Integration
C. File Storage Integration
D. Certificate Authority Integration

Correct Answer: B

QUESTION 3
An administrator wants to use VMware Unified Access Gateway (UAG) appliance to enable devices to connect
to internal resources without needing the Workspace ONE UEM SDK.
Which method can the administrator use to deploy the UAG appliance?

A. Manual install to a Linux Server
B. PowerShell install to a Windows Server
C. Manual install to a Windows Server
D. PowerShell install to vSphere

Correct Answer: D

QUESTION 4
An organization has purchased a SaaS Workspace ONE solution and wants to implement these:
integration with back-end resources like Active Directory from Microsoft to sync users and groups Kerberos authentication
integration with Virtual Desktops and Applications from services (Horizon 7, Horizon Cloud, or Citrix)
third party integration with RSA SecureID, RADIUS for authentication
Which Workspace ONE component is required?

A. VMware AirWatch Cloud Connector
B. VMware Workspace ONE Assist
C. VMware Workspace Unified Access Gateway
D. VMware Workspace ONE Access Connector

Correct Answer: D

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