VMware 5V0-35.21 Dumps

According to the vRealize Operations User Guide1, the two statements that accurately characterize reports in vRealize Operations are:

• A report layout can contain table of contents, cover page, and footer. The report layout defines the appearance and structure of the report, and can include these optional elements to enhance the readability and presentation of the report1.
• Scheduling of reports can be done hourly, daily, weekly, and monthly. The report schedule defines the frequency and time of the report generation, and can be set to run at regular intervals, such as hourly, daily, weekly, or monthly, or at a specific date and time1.

The other statements are not accurate because:

• Views and Dashboards are not the only data types available for a report. A report can also include other data types, such as alerts, events, metrics, properties, and super metrics1.
• Only PDF type reports cannot be used to schedule a report generation. A report can be generated in different formats, such as PDF, CSV, or XML, and any of these formats can be used to schedule a report generation1.
• Reports scheduled for generation can be shared out via email or FTP. A report can be configured to send the generated output to one or more email recipients, or to upload the output to an FTP server1.

References: 1: vRealize Operations User Guide, pages 81-87.

The impact setting of an alert definition determines which badge of an object is affected when the alert is triggered. The impact setting can be one of the following: Health, Risk, orEfficiency. The Health impact indicates that the alert affects the current state of the object and requires immediate attention. The Risk impact indicates that the alert affects the future state of the object and requires proactive action. The Efficiency impact indicates that the alert affects the optimal use of resources by the object and requires optimization. Therefore, to achieve the goal of affecting the Risk badge of an object when the alert is triggered, the administrator should configure the impact setting of the alert definition to Risk. References: Defining Alerts in vRealize Operations; Policy Alert Definitions

To compare the cost of running workloads hosted with two different custom cloud providers, the administrator needs to create two new pricing cards in vRealize Operations. A pricing card is a template that defines the cost of cloud resources, such as compute, storage, network, and services. By creating two pricing cards, one for each custom cloud provider, the administrator can specify the prices for each resource type and apply discounts or markups as needed. The administrator can then use the pricing cards to run a what-if analysis and compare the cost of migrating or scaling workloads to the custom cloud providers. The other options are not correct for comparing the cost of running workloads hosted with two different custom cloud providers. Adding custom cloud providers as cloud accounts is not possible, as vRealize Operations only supports adding public cloud accounts, such as AWS, Azure, or Google Cloud. Inputting prices manually when running a what-if analysis is not efficient, as it would require entering the prices for each resource type and workload every time. Adding two custom cloud providers is not a valid option, as it is not clear how the administrator would define the cost of the cloud resources without using pricing cards. References: Create a Pricing Card, Compare the Cost of Running Workloads on Different Cloud Providers, What-If Analysis

 The Troubleshooting Workbench is a feature in vRealize Operations that helps you perform advanced troubleshooting tasks on an alert or an object. You can look for potential evidences of a problem within a specific scope and time range. The potential evidences are based on three types of data: Alerts, Events, and Property Changes. Alerts show the active and inactive alerts that are related to the object or its peers. Events show the events that are based on a change in the metrics, such as spikes, drops, or anomalies. Property Changes show the changes in the configuration or properties of the object or its peers, such as CPU, memory, or disk allocation. These types of data help you identify the root cause of the issue and take corrective actions. Symptoms and Anomalous Metrics are not considered as potential evidence in the Troubleshooting Workbench, although they may be used to trigger alerts or events. Logs are not displayed in the Troubleshooting Workbench, but they can be accessed from the Logs tab of the object. References: Discovering Potential Evidences Using the Troubleshooting Workbench, Solving Real Problems with vRealize Operations TroubleshootingWorkbench, Troubleshooting Workbench Home Page, vROps 8.0 Troubleshooting Workbench and Blue Medora

Suspending an alert is the action that allows the administrator to stop the alert from triggering again while investigating the problem. Suspending an alert also automatically assigns the alert to the user who performed the action1. Suspending an alert does not cancel or disable the alert, but rather pauses the alert evaluation until the user resumes or cancels the alert2. Taking ownership of an alert does not stop the alert from triggering again, but only indicates that the user is responsible for resolving the alert3. Disabling an alert prevents the alert from being generated for any object, which is not recommended unless the alert is no longer relevant or useful4. Canceling an alert removes the alert from the system, which is not appropriate if the alert is still valid and requires investigation. References: 1: Suspend an Alert - VMware 2: Alert Actions - VMware 3: Take Ownership of an Alert - VMware 4: Disable an Alert Definition - VMware : Cancel an Alert - VMware Docs

 Keeping Self-Provider Mode Off is the correct setting of Widget-2 in Dashboard-B to satisfy the requirement. Self-Provider Mode is a widget setting that determines whether the widget can provide data to itself or receive data from another widget. If Self-Provider Mode is On, the widget provides data to itself based on its configuration and does not receive data from other widgets. If Self-Provider Mode is Off, the widget receives data from another widget that is configured as a provider. In this case, the requirement is thatWidget-2 of Dashboard-B should be populated with the information from Widget-1 of Dashboard-A, which means that Widget-2 should receive data from Widget-1. Therefore, Widget-2 should have Self-Provider Mode Off, and Widget-1 should have Widget-2 as a receiver in its widget interactions. Keeping Refresh Content Off or On is not relevant to the requirement, as it only affects the frequency of data refresh in the widget. Keeping Self-Provider Mode On is the opposite of what is needed, as it would prevent Widget-2 from receiving data from Widget-1. References: Configuring Widgets, section “Widget Settings”. Configuring Widget Interactions, section “Widget Interactions”. vRealize Operations Manager User Guide, section “Create and Configure Dashboards”.

 Cloud Proxies are special types of remote collectors that enable vRealize Operations Cloud to collect and monitor data from on-premises data centers. Cloud Proxies establish a one-way communication channel from the on-premises environment to the vRealize Operations Cloud, and they securely upload data to the cloud instance without requiring any inbound ports to be opened on the firewall. Cloud Proxies can support multiple vCenter Server accounts and other management packs, and they provide data persistence and high availability features12. References: 1: Configuring Cloud Proxies in vRealize Operations 2: Managing Cloud Proxies in vRealize Operations

 A vRealize Operations cluster in a Continuous Availability configuration consists of three node types: primary node, primary replica node, and witness node. These node types are deployed across two fault domains, which are separate physical locations that can tolerate failures of an entire rack or site. The witness node is deployed in a third location to monitor the network connectivity between the two fault domains and prevent split-brain scenarios1.

The primary node is the first node that is deployed in the cluster and acts as the master node. It is responsible for managing the cluster configuration, user interface, alerting, and reporting. The primary node is deployed in fault domain 11.

The primary replica node is the second node that is deployed in the cluster and acts as the backup node for the primary node. It is responsible for replicating and synchronizing the data and configuration from the primary node. The primary replica node can take over the functions of the primary node in case of a failure. The primary replica node is deployed in fault domain 21.

The witness node is the third node that is deployed in the cluster and acts as the arbitrator node. It is responsible for monitoring the network connectivity and availability of the primary node and the primary replica node. The witness node can detect a split-brain situation, which occurs when the network connection between the two fault domains is lost and both nodes assume the role of the master node. The witness node can resolve the split-brain situation by making one of the nodes offline to avoid data inconsistency. The witness node is deployed in a third location that is independent of the two fault domains1.

The other options are not node types that are configured in a Continuous Availability configuration. A secondary node is a node that is added to the cluster to increase the capacity and performance of the cluster. A secondary node can be deployed in either fault domain, but it is not required for Continuous Availability1. A remote collector node is a node that is deployed outside the cluster to collect data from remote or isolated data sources. A remote collector node can be deployed in any location, but it is not part of the Continuous Availability configuration2. A secondary replica node is not a valid node type in vRealize Operations.

References: 1: About vRealize Operations Continuous Availability 2: Remote Collector Nodes

According to the VMware vRealize Operations User Guide1, a Super Metric is a custom metric that is derived from one or more existing metrics. A Super Metric can be used to calculate complex formulas, aggregate data across multiple objects, or create new metrics that are not available by default. A Super Metric can be created using the Super Metric Editor in vRealize Operations.

However, before a Super Metric’s data collection may begin, the Super Metric must be enabled in a policy. A policy is a set of rules and settings that determine how vRealize Operations analyzes and manages the objects in the environment. A policy can be applied to one or more object types or groups. To enable a Super Metric in a policy, the administrator must edit the policy, select the Collect Metrics and Properties option, and then select the Super Metric from the list of available metrics. The administrator can also specify the collection level, collection interval, and retention period for the Super Metric.

The other options are not required before a Super Metric’s data collection may begin. Enabling in Alerts, Object Types, or Objects are not necessary steps for collecting Super Metric data. These options are used for different purposes, such as creating alert definitions, defining object relationships, or assigning policies to individual objects. References:

• 1: VMware vRealize Operations User Guide, https://docs.vmware.com/en/vRealize-Operations/8.5/vrealize-operations-manager-85-user-guide.pdf, page 35-36, 39-40, 43-44

 To configure vRealize Operations to operate in Continuous Availability mode, you need to use the product User Interface -> Administration -> Cluster Management -> Configure Availability option. This option allows you to enable or disable Continuous Availability for the vRealize Operations cluster, as well as to view and edit the fault domains and node pairs. You can also monitor the status and synchronization of the nodes in each fault domain12. The other options are not correct because:

• The administration User Interface --> System Status --> Configure Availability option does not exist. The administration User Interface only has the following tabs: System Status, Cluster Management, Software Update, and Support3.
• The administration User Interface -> Architecture -> Configure Availability option does not exist. The administration User Interface does not have an Architecture tab3.
• The product User Interface -> Administration -> Support -> Configure Availability option does not exist. The Support tab under the Administration menu only has the following options: Logs, Support Bundles, and Support Alerts4. References: 1: Enable Continuous Availability in vRealize Operations 2: About vRealize Operations Continuous Availability 3: [vRealize Operations Manager Administration Interface] 4: [Support]

 Symptom types are the categories of conditions that can trigger symptoms and alerts in vRealize Operations. There are six symptom types available: Metric / Property, Message, Fault, Smart Early Warning, External Event, and Metric Event1. Metric / Property symptoms compare the values of metrics or properties of an object to a static or dynamic threshold2. Fault symptoms detect faults or errors on an object based on the fault events collected by the adapter3. Alert, Action, and Recommendation are not symptom types, but they are components of alert definitions that provide information and guidance on how to resolve the problems identified by the symptoms4. References:

• Symptom Definitions
• Create a Symptom Definition Based on Metrics or Properties
• Create a Symptom Definition Based on Fault Events
• Alert Definitions

According to the vRealize Operations User Guide1, the action that the administrator should take to accomplish the goal of configuring vRealize Operations to monitor the new NSX-T installation is to add an NSX-T account under Cloud Accounts. An NSX-T account is a configuration that defines the connection details and credentials of the NSX-T Manager instance that manages the NSX-T components across the vSphere infrastructure. By adding an NSX-T account under Cloud Accounts, the administrator can enable vRealize Operations to collect data from the NSX-T Manager instance and monitor the health, performance, capacity, and configuration of the NSX-T components, such as transport nodes, transport zones, logical switches, logical routers, and firewall rules. The guide provides the steps to add an NSX-T account under Cloud Accounts using the vRealize Operations user interface1. The other options are not correct because:

• Configuring NSX-T account in Integrations is not a valid action, as there is no such option in the vRealize Operations user interface. The Integrations option under Administration is used to configure the integration of vRealize Operations with other VMware products, such as vRealize Log Insight, vRealize Automation, and vRealize Business for Cloud1.
• Configuring NSX-T monitoring under the Cloud Account of the existing vCenter Server of the vSphere infrastructure is not a valid action, as there is no such option in the vRealize Operations user interface. The Cloud Account of the existing vCenter Server is used to monitor the vSphere components, such as clusters, hosts, datastores, and virtual machines, but not the NSX-T components1.
• Adding NSX-T account under Other Accounts is not a valid action, as there is no such option in the vRealize Operations user interface. The Other Accounts option under Administration is used to add accounts for other types of cloud services, such as AWS, Azure, Google Cloud, or Kubernetes1. References: 1: vRealize Operations User Guide, pages 17-18, 21-22, 25-26.

According to the VMware vRealize Operations Install and Configure Guide1, the sizing tool is a web-based application that helps to estimate the required resources and configuration for a vRealize Operations cluster. The sizing tool takes into account various parameters,such as the number and type of objects to be monitored, the number of metrics and properties to be collected, the number of alerts and dashboards to be displayed, the number of users and concurrent sessions, and the desired availability and performance of the cluster.

Two of the additional parameters that are taken into account when sizing a vRealize Operations cluster using the sizing tool are:

• Time Series Data Retention: This parameter specifies the duration for which the collected metrics and properties are stored in the vRealize Operations database. The longer the retention period, the more disk space is required for the cluster nodes. The sizing tool allows the user to select the retention period from 1 month to 12 months, or to enter a custom value.
• Projected Growth: This parameter specifies the expected increase in the number and type of objects to be monitored over time. The higher the projected growth, the more resources are required for the cluster nodes. The sizing tool allows the user to select the projected growth from 0% to 100%, or to enter a custom value.

Therefore, the correct answers are A. Time Series Data Retention and C. Projected Growth, as these are two of the additional parameters that are taken into account when sizing a vRealize Operations cluster using the sizing tool. References:

• 1: VMware vRealize Operations Install and Configure Guide, https://docs.vmware.com/en/vRealize-Operations/8.5/vrealize-operations-manager-85-installation-and-configuration-guide.pdf, page 11-13

The alternative that is offered by default when Workload Planning returns that an existing cluster does not have the capacity to accommodate the selected virtual machines is cost comparisons for running in hybrid/private/public cloud. Workload Planning is a feature ofvRealize Operations that allows the administrator to plan and optimize the workload placement and capacity of the vSphere resources in the environment1. Workload Planning can be performed using two scenarios: Workload Optimization and What-If Analysis. Workload Optimization is a scenario that automatically balances the workload across the clusters and datastores based on the business and operational intents, such as performance, consolidation, or compliance2. What-If Analysis is a scenario that simulates the impact of adding or removing workloads, hosts, or datastores, or changing the demand or configuration of the existing workloads3. When Workload Planning is performed using the What-If Analysis scenario, and it returns that an existing cluster does not have the capacity to accommodate the selected virtual machines, the alternative that is offered by default is cost comparisons for running in hybrid/private/public cloud. This alternative allows the administrator to compare the estimated costs of running the selected virtual machines in different cloud platforms, such as VMware Cloud on AWS, Microsoft Azure, or Amazon Web Services, and to choose the best option for the business needs and budget4. Cost options for increasing cluster capacity with additional hosts (option B) is not the alternative that is offered by default, but it is another option that can be selected by the administrator. This option allows the administrator to estimate the costs of adding new hosts to the existing cluster, and to choose the best host model and quantity for the capacity and performance requirements5. Modifications to virtual machine configuration (option C) and modifications to host configurations (option D) are not alternatives that are offered by Workload Planning, as they are not related to the workload placement and capacity planning. These modifications can be performed using other features of vRealize Operations, such as Reclaimable Waste, Oversized Virtual Machines, or Configuration and Compliance. References:

• 1: VMware vRealize Operations Specialist Exam 2023 (5V0-35.21) Exam Guide, VMware, 2021, p. 14.
• 2: vRealize Operations Manager User Guide, VMware, 2021, p. 167.
• 3: vRealize Operations Manager User Guide, VMware, 2021, p. 179.
• 4: vRealize Operations Manager User Guide, VMware, 2021, p. 187.
• 5: vRealize Operations Manager User Guide, VMware, 2021, p. 186.
• [6]: vRealize Operations Manager User Guide, VMware, 2021, pp. 77-78, 83-84, 229-230.

 The scoreboard widget configuration option that possibly caused this problem is Self Provider set to On. The Self Provider option determines whether the widget shows metrics of the objects selected during editing of the widget or selected on another widget. When the Self Provider option is set to On, the widget shows metrics of the objects selected during editing of the widget. When the Self Provider option is set to Off, the widget shows metrics of the objects selected on another widget. Therefore, if the administrator wants to enable a custom metric configuration file to a scoreboard widget in a dashboard, and the custom metrics are defined for a specific object type, the administrator should set the Self Provider option to Off and select the appropriate object type on another widget. Otherwise, the scoreboard widget will not show the new metrics at all, because the custom metric configuration file will not match the object type selected during editing of the widget. References: How the Scoreboard Widget and Configuration Options Work; Solved: How to configure Generic Scoreboard widget to interact with…

A cloud proxy is an appliance that enables vRealize Operations Cloud to collect and monitor data from the on-premises environment. A cloud proxy is deployed as an OVA template on a vCenter Server instance that manages the on-premises resources. A cloud proxy creates a one-way communication between the on-premises environment and vRealize Operations Cloud by uploading data from the remote collectors to the cloud service. A cloud proxy can support multiple vCenter Server accounts and other data sources that are configured in vRealize Operations Cloud1.

The other options are not appliances that are needed to achieve this goal. A reverse proxy is a server that receives requests from clients and forwards them to the origin server. A reverse proxy can provide security, load balancing, caching, and compression functions. A reverse proxy is not used to create a one-way communication between the on-premises environment and vRealize Operations Cloud2. A web proxy is a server that acts as an intermediary between a web browser and the internet. A web proxy can provide anonymity, filtering, caching, and security functions. A web proxy is not used to create a one-way communication between the on-premises environment and vRealize Operations Cloud3. A VMware proxy is not a valid appliance in vRealize Operations.

References: 1: Configuring Cloud Proxies in vRealize Operations 2: What is a Reverse Proxy Server? | NGINX 3: What is a Web Proxy? | Proxy Server | Cloudflare

The administrator needs the Active Directory domain administrator account and password to configure service discovery to identify which virtual machines are running Active Directory services. Service discovery is a feature of vRealize Operations that allows the administrator to discover and monitor the applications and services running on the virtual machines in the environment1. Service discovery can be performed using two methods: credential-less and credential-based. Credential-less service discovery uses VMware Tools to query the guest operating system for the list of running processes, and then matches them with a predefined set of signatures to identify the applications and services2. Credential-based service discovery uses the credentials provided by the administrator to log in to theguest operating system and run commands or scripts to discover the applications and services3. Credential-less service discovery can be used for most common applications and services, such as web servers, database servers, or file servers, but it has some limitations, such as not being able to discover clustered or distributed applications, or applications that run on non-standard ports4. Credential-based service discovery can be used for more complex and customized applications and services, such as Active Directory, Exchange, or SharePoint, but it requires the administrator to provide the appropriate credentials for each guest operating system. For Windows operating systems, the credentials must be either a local administrator account or a domain administrator account. For Active Directory services, the domain administrator account is preferred, as it has the necessary permissions to access the Active Directory information and configuration. Therefore, the administrator needs the Active Directory domain administrator account and password to configure service discovery to identify which virtual machines are running Active Directory services. No credentials are needed since credential-less service discovery can be used (option A) is not a correct answer, as credential-less service discovery cannot discover Active Directory services, which require credential-based service discovery. Local Windows administrator account and password (option B) is not a correct answer, as the local administrator account may not have the sufficient permissions to access the Active Directory information and configuration, which require the domain administrator account. Active Directory domain user account and password (option D) is not a correct answer, as the domain user account may not have the necessary permissions to access the Active Directory information and configuration, which require the domain administrator account. References:

• 1: vRealize Operations Manager User Guide, VMware, 2021, p. 237.
• 2: vRealize Operations Manager User Guide, VMware, 2021, p. 238.
• 3: vRealize Operations Manager User Guide, VMware, 2021, p. 239.
• 4: vRealize Operations Manager User Guide, VMware, 2021, p. 240.
• [5]: vRealize Operations Manager User Guide, VMware, 2021, p. 241.
• [6]: vRealize Operations Manager User Guide, VMware, 2021, p. 242.
• [7]: vRealize Operations Manager User Guide, VMware, 2021, p. 244.

The generate passphrase option allows the vRealize Operations administrator to create a one-time passphrase that can be used instead of the administrator credentials to add a node to the cluster. This option is useful when the administrator wants to delegate the task of adding a node to another user without exposing the administrator password. The passphrase is valid for 24 hours and can be used only once. The trainee administrator can use the passphrase to authenticate into the vRealize Operations Manager administration interface and then select the Expand an Existing Installation option to add a new node intothe cluster1. References: 1: Expand an Existing Installation to Add a Data Node

According to the VMware vRealize Operations Reference Materials, the users who are imported from an LDAP authentication source can access vSphere and other objects including third-party objects in vRealize Operations, as long as they have the appropriate permissions and roles assigned to them. The LDAP users can use their LDAP credentials to log in to vRealize Operations, and they can view and manage the objects that are within their scope of access. The other options are incorrect because they are either false or irrelevant. The credentials for the LDAP users are not stored in the central Postgres database of vRealize Operations, but in the LDAP server. The LDAP users are allowed to perform any actions in vRealize Operations that are permitted by their roles and permissions. The LDAP user password policy is not set by vRealize Operations, but by the LDAP server. References: Managing Users and Access Control in vRealize Operations; Authentication Sources; Give Administrator Access to AD or LDAP Users

 According to the vRealize Operations Cloud Getting Started guide1 and the VMware Cloud Services documentation2, the invitation that an organization’s owner sends to a new user to consume VMware Cloud Services is valid for up to seven days before it is revoked. If the user does not accept the invitation within this period, the invitation expires and the user cannot join the organization. The organization’s owner can resend the invitation or revoke it if needed. The other options are not correct because they do not match the actual validity period of the invitation. References: 1: vRealize Operations Cloud Getting Started guide, page 92: VMware Cloud Services documentation, Add Users to Your Organization section.

According to the VMware vRealize Operations Reference Materials, the Custom Script option in vRealize Operations is able to calculate measurements on a Guest OS. The Custom Script option allows the administrator to run a script on the Guest OS of a virtual machine and collect the output as a metric. The script can be written in any language that is supported by the Guest OS, such as PowerShell, Bash, or Python. The script can perform any calculation or operation that is required by the administrator, such as checking the CPU load, memory usage, disk space, or application status. The script output can be numeric or text, and it can be displayed in a dashboard, alert, or report. The other options, such as HTTP Check, UDP Check, or TCP Check, are not able to calculate measurements on a Guest OS. They are used to monitor the availability and response time of a web service, a UDP port, or a TCP port, respectively. They do not run any script on the Guest OS, nor do they collect any metric from the Guest OS. References: Custom Script; How to build a per-guest filesystem report in vRealize Operations using the ‘Breakdown By’ feature; How to Get In-Guest Metrics in vRealize Operations for Horizon 6

These two prerequisites are required for integrating vRealize Operations Cloud and vRealize Log Insight Cloud to manage on-premises vSphere environments. vRealize Operations Cloud and vRealize Log Insight Cloud must be enabled in the same organizations, as this is a requirement for the integration to work properly. Organizations are logical entities that group users, projects, and resources in VMware Cloud Services. Users can belong to multiple organizations, but they can only access one organization at a time. To integrate vRealize Operations Cloud and vRealize Log Insight Cloud, users must select the same organization in both services. Deploying a cloud proxy, and then configuring vCenter and ESXi hosts syslog to forward logs to the cloud proxy is another prerequisite for the integration. A cloud proxy is a virtual appliance that collects data from on-premises sources and sends it securely to vRealize Operations Cloud and vRealize Log Insight Cloud. A cloud proxy is required to monitor on-premises vSphere environments, as it acts as a bridge between the on-premises and cloud services. Deploying the vRealize Operations Cloud Content pack, and configuring the adapter to connect to the on-premises vCenter is not a valid option, as this is not a prerequisite for the integration, but a step that can be performed after the integration is established. The vRealize Operations Cloud Content pack is a collection of dashboards, alerts, and reports that provide insights into the vRealize Operations Cloud environment. The adapter is a component that collects data from a specific source, such as vCenter, and sends it to vRealize Operations Cloud. vRealize Operations Cloud and vRealize Log Insight Cloud must be enabled in separate organizations is not a feasible option, as this is the opposite of what is required for the integration. Enabling the services in separate organizations would prevent the users from accessing both services at the same time, and would break the integration. Deploying an on-premises vRealize Log Insight instance, and configuring the integration directly with vRealize Operations Cloud is not a possible option, as this is not supported by the services. vRealize Log Insight Cloud is a cloud-based log analytics service that cannot be integrated with an on-premises vRealize Log Insight instance. vRealize Operations Cloud can only be integrated with vRealize Log Insight Cloud, not with an on-premises vRealize Log Insight instance. References: Integrating vRealize Log Insight and vRealize Operations, section “Integrating vRealize Log Insight and vRealize Operations”. Cloud Proxy Overview, section “Cloud Proxy Overview”. vRealize Operations Manager User Guide, section “Create and Configure Dashboards”.

vRealize Operations continuous availability (CA) separates the vRealize Operations cluster into two fault domains, stretching across vSphere clusters, and protects the analytics cluster against the loss of an entire fault domain. A fault domain consists of one or more analytics nodes grouped according to their physical location in the data center. To activate CA, you must have at least one data node deployed, in addition to the primary node and the witness node. The primary node and the data node must reside in different fault domains, and the witness node must reside in a third location. Therefore, the minimum number of fault domains required to achieve vRealize Operations continuous availability with a primary node, data node, and witness node is two. References: About vRealize Operations Continuous Availability; Continuous Availability Considerations

vRealize Operations Cloud is the SaaS offering of vRealize Operations that provides the same features and capabilities as the on-premises version, but with the benefits of faster time to value, lower operational costs, and continuous innovation. vRealize Operations Cloud supports near real-time monitoring of your applications and infrastructure, with data collection intervals as low as 20 seconds1. Near real-time monitoring enables you to detect and troubleshoot performance issues, optimize resource utilization, and ensure SLA compliance more effectively. vRealize Operations Cloud also integrates with other VMware Cloud services, such as VMware Cloud on AWS, VMware Cloud on Dell EMC, and VMware Tanzu Mission Control, to provide unified visibility and management across your hybrid and multi-cloud environments2.

The on-premises editions of vRealize Operations (Standard, Advanced, and Enterprise) do not support near real-time monitoring, as the minimum data collection interval is 5 minutes3. Therefore, they are not suitable for scenarios that require faster and more granular data analysis and alerting. The on-premises editions also have different feature sets and licensing models compared to vRealize Operations Cloud4. References:

• vRealize Operations Cloud FAQ
• vRealize Operations Cloud Overview
• vRealize Operations Manager Data Collection
• vRealize Operations Cloud vs. vRealize Operations

According to the VMware vRealize Operations Reference Materials, the cloud services console is a unified interface that allows you to access and manage your VMware Cloud services. The Identity & Access Management capability is available in the cloud services console regardless of the subscribed cloud services, as it enables you to manage users, groups, roles, and permissions for your organization. The other capabilities, such as Organization Access Management, Settings, and Cost Insights, are specific to certain cloud services and may not be available for all subscriptions. References:

• Cloud Services Console Overview
• Identity & Access Management Overview

 Alert recommendations are the remediation options that you provide to your users toresolve the problems that the generated alert indicates. When you add an alert definition that indicates a problem with objects in your monitored environment, add a relevant recommendation. Recommendations can be instructions to your users, links to other information or instruction sources, or vRealize Operations actions that run on the target systems1. Alert recommendations are not always linked to a Knowledge Base article, and they can be created or modified by the user2. References: 1: Defining Alerts in vRealize Operations 2: User Scenario: Monitor and Process Alerts in vRealize Operations Manager

• Workload Optimization is a feature of VMware vRealize Operations that enables self-driving operations management for hybrid and multi-cloud environments. It uses artificial intelligence and machine learning to monitor, analyze, and automate the performance, capacity, cost, and configuration of applications, infrastructure, and services12.
• Workload Optimization allows administrators to set a goal for workload optimization, which defines how vRealize Operations balances the resource utilization across clusters and data centers. The goal can be one of the following options34:
• Therefore, the configuration that proactively moves workloads so that the resource utilization ensures maximum headroom for all resources is Balance.

References:

1: vRealize Operations - VMware 2: vRealize Operations Manager User Guide 3: Workload Optimization Details - VMware Docs 4: Workload Optimization in vRealize Operations Manager : [vRealize Operations Manager Installation and Configuration Guide] : [vRealize Operations Manager Concepts Guide] : [vRealize Operations Manager Administration Guide] : [vRealize Operations Manager Customization and Extensibility Guide] : [vRealize Operations Manager Troubleshooting Guide] : [vRealize Operations Manager API Programming Guide] : [vRealize Operations Manager Certification Exam Guide]

According to the vRealize Operations Cloud Getting Started guide1, the two steps that are needed to onboard an on-premises vCenter instance into an existing vRealize Operations Cloud instance are:

• Deploy and configure a cloud proxy. A cloud proxy is a virtual appliance that acts as a bridge between the on-premises vCenter instance and the vRealize Operations Cloud instance. It collects data from the vCenter instance and sends it securely to the vRealize Operations Cloud instance. It also enables actions and remote console access from the vRealize Operations Cloud instance to the on-premises vCenter instance. The guide provides the steps to download, deploy, and configure the cloud proxy using the vRealize Operations Cloud user interface1.
• Add a vCenter cloud account. A vCenter cloud account is a configuration that defines the connection details and credentials of the on-premises vCenter instance. It also specifies the cloud proxy that is associated with the vCenter instance. The guide provides the steps to add a vCenter cloud account using the vRealize Operations Cloud user interface1.

The other options are not correct because:

• Deploying and configuring a Data node is not a required step to onboard an on-premises vCenter instance into an existing vRealize Operations Cloud instance. A Data node is a component of the vRealize Operations Cloud cluster that stores and processes data. It is managed by the vRealize Operations Cloud service provider and does not need to be deployed or configured by the customer2.
• Deploying and configuring a Primary node is not a required step to onboard an on-premises vCenter instance into an existing vRealize Operations Cloud instance. A Primary node is a component of the vRealize Operations Cloud cluster that provides the user interfaceand administration functions. It is managed by the vRealize Operations Cloud service provider and does not need to be deployed or configured by the customer2.
• Adding a vRealize Operations Cloud account is not a required step to onboard an on-premises vCenter instance into an existing vRealize Operations Cloud instance. A vRealize Operations Cloud account is a configuration that defines the connection details and credentials of the vRealize Operations Cloud instance. It is used to integrate vRealize Operations Cloud with other VMware Cloud services, such as VMware Cloud on AWS or VMware Cloud Director. It is not related to the on-premises vCenter instance3. References: 1: vRealize Operations Cloud Getting Started guide, pages 9-132: vRealize Operations Cloud Concepts guide, pages 5-63: vRealize Operations Cloud User Guide, pages 17-18.

To view the status of all objects in vRealize Operations, you can create a dashboard by adding widgets or views. You can create and modify dashboards and configure them to meet your environment needs. Widgets are graphical elements that display data and analysis from vRealize Operations. Views are predefined or custom presentations of object data that you can use in dashboards, reports, or alerts. Alerts, recommendations, and reports are not objects that can be used to create dashboards, but they can be displayed or accessed from dashboards. References:

• Create and Configure Dashboards
• Dashboards
• vROPS Dashboards Overview

According to the vRealize Operations documentation, the Administrator role includes privileges to all features, objects, and actions in vRealize Operations, including creating and managing dashboards1. Therefore, if a user has been granted the Administrator role, they can create dashboards regardless of any other roles they may have. The ReadOnly role does not prevent the user from creating dashboards, as it only limits their access to read operations1. The ContentUser and DashboardManager roles are not required for creating dashboards, as they only provide privileges to manage specific content types1. References: 1: Roles and Privileges in vRealize Operations - VMware

 According to the VMware vRealize Operations User Guide1, vRealize Operations allows the user to perform various actions on vSphere virtual machines from the product UI. These actions can help to manage, optimize, and troubleshoot the virtual machines and their resources. Some of the actions that can be performed on vSphere virtual machines from vRealize Operations product UI are:

• Create virtual machine snapshot: This action creates a snapshot of the virtual machine, which is a point-in-time copy of the virtual machine state and data. A snapshot can be used to revert the virtual machine to a previous state, or to clone or migrate the virtual machine. The user can specify the name, description, and memory options for the snapshot.
• Delete virtual machine snapshot: This action deletes a snapshot of the virtual machine, which frees up the disk space used by the snapshot. The user can select the snapshot to delete from a list of available snapshots for the virtual machine.
• Move virtual machine: This action moves the virtual machine to a different host or cluster within the same vCenter Server. The user can select the destination host or cluster from alist of compatible and available options. The move action can help to balance the workload or improve the performance of the virtual machine.

Therefore, the correct answers are A. Create virtual machine snapshot, B. Delete virtual machine snapshot, and C. Move virtual machine, as these are three of the actions that can be performed on vSphere virtual machines from vRealize Operations product UI. References:

• 1: VMware vRealize Operations User Guide, https://docs.vmware.com/en/vRealize-Operations/8.5/vrealize-operations-manager-85-user-guide.pdf, page 31-32, 34-35, 37-38

A cloud account is a configuration that enables vRealize Operations to collect data from a cloud platform or service. vRealize Operations supports different types of cloud accounts, depending on the source of the data and the type of the adapter that is used to connect to the cloud platform or service1. Two of the supported cloud account types are Microsoft Azure and vCenter Server.

Microsoft Azure is a cloud platform that provides a range of services, such as compute, storage, networking, database, analytics, and security. vRealize Operations can connect to Microsoft Azure by using the Microsoft Azure Management Pack, which is an adapter that collects data from the Azure Monitor service. The Microsoft Azure cloud account requires the credentials and subscription ID of the Azure account, and the resource groups and regions that are monitored by vRealize Operations2.

vCenter Server is a platform that manages the VMware private cloud components, such as ESXi, NSX-T Data Center, vSAN, and HCX. vRealize Operations can connect to vCenter Server by using the vSphere solution, which is an adapter that collects data from the vCenter Server API. The vCenter Server cloud account requires the credentials and IP address or FQDN of the vCenter Server instance, and the advanced settings that determine the data collection and processing options3.

The other options are not supported cloud account types in vRealize Operations. Horizon Connection Server is a platform that manages the VMware Horizon virtual desktop infrastructure, but it is not a cloud account type. vRealize Operations can connect to Horizon Connection Server by using the Horizon Adapter, which is a separate adapter that does not require a cloud account configuration4. Google Cloud Platform is a cloud platform that provides a range of services, such as compute, storage, networking, database, analytics, and security, but it is not a cloud account type. vRealize Operations can connect to Google Cloud Platform by using the Google Cloud Platform Management Pack, which is an adapter that collects data from the Google Cloud Monitoring service. The Google Cloud Platform Management Pack does not use a cloud account configuration, but a service account configuration, which requires a service account key file and a project ID. vRealize Automation is a platform that automates the delivery and management of IT services across multiple clouds, but it is not a cloud account type. vRealize Operations can connect to vRealize Automation by using the vRealize Automation Management Pack, which is an adapter that collects data from the vRealize Automation API. The vRealize Automation Management Pack does not use a cloud account configuration, but a vRealize Automation instance configuration, which requires the credentials and IP address or FQDN of the vRealize Automation instance.

References: 1: Cloud Accounts 2: Configure a Microsoft Azure Cloud Account in vRealize Operations 3: Configure a vCenter Server Cloud Account in vRealize Operations 4: Horizon Adapter : [Configure a Service Account for Google Cloud Platform in vRealize Operations] : [Configure a vRealize Automation Instance in vRealize Operations]

Remote Collector nodes are a type of vRealize Operations nodes that only gather objects for the inventory, without storing data or performing analysis. Remote Collector nodes can navigate firewalls, interface with remote data sources, reduce the bandwidth across data centers, or reduce the load on the vRealize Operations analytics cluster1. Remote Collector nodes are not part of the analytics cluster, but they are members of the vRealize Operations cluster2.

Data nodes, Primary Replica nodes, and Primary nodes are all part of the analytics cluster and they store data and perform analysis. Data nodes have adapters installed and perform collection and analysis. Primary Replica nodes are replicas of the Primary nodes and provide high availability or continuous availability. Primary nodes are the initial and required nodes in vRealize Operations and manage all other nodes2. References:

• Additional Operations from the Manage Telegraf Agents Page
• About vRealize Operations Cluster Nodes

Single sign-on (SSO) is typically integrated with vSphere and vRealize Operations Manager to control user access and permissions. By using SSO, the administrator can leverage the existing vSphere permissions to automatically ensure users have appropriate access to vSphere objects within vRealize Operations Manager without having to manage separate permissions or access lists.

 The two actions that are possible to manage a vRealize Operations cluster using the Admin UI are uploading and installing vRealize Operations PAK files, and enabling or disabling high availability for the vRealize Operations cluster. Uploading and installing vRealize Operations PAK files is an action that allows the administrator to update the vRealize Operations software, add new features, or install management packs1. Enabling or disabling high availability for the vRealize Operations cluster is an action that allows the administrator to configure the cluster to tolerate the failure of one or more nodes, and to ensure the continuity and availability of the vRealize Operations services2. Deploying a new vRealize Operations node OVA (option A) is not an action that can be performed using the Admin UI, as it requires the use of the vSphere Client or the vSphere Web Client to deploy the OVA file to the vCenter Server3. Activating a vRealize Operations native management pack (option C) is not an action that can be performed using the Admin UI, as it requires the use of the vRealize Operations Manager UI to access the Solutions page and activate the management pack4. Configuring a DNS server on the vRealize Operations nodes (option E) is not an action that can be performed using the Admin UI, as it requires the use of the command-line interface (CLI) to access the node settings and configure the DNS server5. References:

• 1: VMware vRealize Operations Specialist Exam 2023 (5V0-35.21) Exam Guide, VMware, 2021, p. 11.
• 2: VMware vRealize Operations Specialist Exam 2023 (5V0-35.21) Exam Guide, VMware, 2021, p. 12.
• 3: vRealize Operations Manager Installation and Configuration Guide, VMware, 2021, p. 17.
• 4: vRealize Operations Manager Installation and Configuration Guide, VMware, 2021, p. 31.
• 5: vRealize Operations Manager Installation and Configuration Guide, VMware, 2021, p. 25.

The function that is unavailable in the vRealize Operations Admin UI is viewing alerts, symptoms, and policies. The Admin UI is a separate interface from the Product UI that provides access to selected maintenance functions beyond what the Product UI supports. TheAdmin UI is used for platform administration tasks, such as upgrading vRealize Operations, enabling or disabling High Availability (HA), uploading and installing vRealize Operations PAK files, taking vRealize Operations Online/Offline, and managing certificates, passwords, and users1. The Admin UI does not provide access to the operational functions, such as viewing alerts, symptoms, and policies, which are available in the Product UI. The Product UI is used for monitoring and managing the objects, metrics, alerts, dashboards, reports, and policies in vRealize Operations2.

References: 1: About the vRealize Operations Administration Interface 2: About the vRealize Operations Product Interface

 The reason why vRealize Operations reports that the cluster has 0 days remaining when the actual CPU overcommit ratio is less than the 4:1 configured value is that the CPU demand in the cluster is greater than the total CPU capacity. The allocation model is a method of calculating the capacity and utilization of resources based on the amount of resources that are allocated to the objects, such as virtual machines, clusters, or datastores. The allocation model allows the administrator to set the overcommit ratio for CPU, memory, or disk space, which is the ratio of the allocated resources to the available resources. The overcommit ratio determines how much the resources can be overcommitted without affecting the performance or availability of the objects1.

When the administrator enables the allocation model in a policy and sets the CPU overcommit ratio to 4:1 for all vSphere clusters in a vSphere datacenter, it means that the administrator allows the CPU resources to be allocated four times more than the availableCPU resources in the clusters. For example, if a cluster has 100 GHz of CPU capacity, the administrator can allocate up to 400 GHz of CPU resources to the virtual machines in the cluster. However, this does not mean that the virtual machines can consume up to 400 GHz of CPU resources without any impact. The actual CPU consumption of the virtual machines depends on the CPU demand, which is the amount of CPU resources that the virtual machines require to run their workloads. The CPU demand can vary depending on the workload type, intensity, and pattern2.

If the CPU demand in the cluster is greater than the total CPU capacity, it means that the virtual machines are requesting more CPU resources than the cluster can provide. This can result in CPU contention, performance degradation, and SLA violations. In this case, vRealize Operations reports that the cluster has 0 days remaining, which means that the cluster has reached its maximum capacity and cannot accommodate any more CPU demand. The cluster has 0 days remaining even if the actual CPU overcommit ratio is less than the 4:1 configured value, because the overcommit ratio only reflects the allocated resources, not the consumed resources. The overcommit ratio does not guarantee that the cluster can support the CPU demand of the virtual machines, but only indicates the potential capacity of the cluster based on the allocation model1.

References: 1: Allocation Model - VMware Docs 2: Demand Model - VMware Docs

In an out-of-box vRealize Operations (vROps) deployment, the internal components' health status can be checked through the Product UI. Specifically, by navigating to the Dashboards section and accessing the vRealize Operations dashboards, an administrator can view various metrics and statuses related to the health and performance of the vROps components. These dashboards are designed to provide a comprehensive overview of the system's health and are a key feature of vROps for monitoring and managing the VMware environment efficiently.

According to the VMware vRealize Operations Reference Materials, the High Availability feature in vRealize Operations cluster must be used for this requirement. The High Availability feature enables the cluster to tolerate one node failure without losing any data or functionality. The High Availability feature works by creating a replica node for each data node in the cluster, and synchronizing the data between them. The replica node acts as a standby node that can take over the role of the data node in case of a failure. The replica node can also serve as a load balancer to distribute the workload among the data nodes. The other options are incorrect because they do not meet the requirement or they are not supported by vRealize Operations. The Remote Collector option is not a cluster feature, but a type of node that can be used to collect data from remote sources and forward it to the cluster. The Remote Collector node does not store any data or perform any analysis, and it cannot replace a data node in case of a failure. The Continuous Availability option is a cluster feature that enables the cluster to tolerate multiple node failures without losing any data or functionality. However, the Continuous Availability feature requires at least two physical locations, and it is not supported for a single location. The Stretched Cluster option is not a cluster feature, but a configuration that allows a cluster to span across two physical locations. The Stretched Cluster option can provide high availability and disaster recovery, but it also requires additional network and storage configuration, and it is not supported for a single location. References: vRealize Operations Cluster and Node Maintenance; Adding High Availability to vRealize Operations; Adding Continuous Availability; Stretched Cluster

According to the VMware vRealize Operations User Guide1, tags are labels that can be assigned to objects in vRealize Operations to group them based on common attributes or criteria. Tags can be used to filter, search, and organize objects in vRealize Operations, as well as to define policies, alerts, dashboards, and reports. Tags can also be used to configure tiers, which are logical groups of objects that represent different levels of service or performance in the environment. For example, the administrator can create tiers such as Gold, Silver, and Bronze, and assign tags to the objects that belong to each tier. Then, the administrator can use the tags to apply different policies, alerts, or dashboards to each tier.

One of the grouping options in vRealize Operations that allows the configuration of tiers is Tags. This option allows the administrator to create custom groups based on the tags assigned to the objects. The administrator can select one or more tags to define the membership criteria for the custom group. The administrator can also specify the object type and the adapter type for the custom group. The custom group can then be used to configure tiers in vRealize Operations.

Therefore, the correct answer is A. Tags, as this is the grouping option in vRealize Operations that allows the configuration of tiers. References:

• 1: VMware vRealize Operations User Guide, https://docs.vmware.com/en/vRealize-Operations/8.5/vrealize-operations-manager-85-user-guide.pdf, page 59-60, 63-64

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1 docs.vmware.com2 vmware.com3 vmware.com

According to the VMware vRealize Operations User Guide1, business intent is a feature that allows the administrator to define the desired state and behavior of the clusters and hosts in the environment based on business objectives and constraints. Business intent can be used to optimize the placement and balance of workloads across clusters and hosts, as well as to enforce license compliance and availability requirements.

One of the types of business intent that can be configured in vRealize Operations is Business Intent - Clusters. This type of business intent allows the administrator to assign tags to clusters and virtual machines, and then create rules that match the tags to ensure that the virtual machines are placed on the appropriate clusters. For example, the administrator can tag two clusters as Windows and two clusters as Linux, and then tag the virtual machines accordingly. Then, the administrator can create rules that match the Windows tag and the Linux tag, and set the enforcement mode to Mandatory. This will ensure that the Windows workloads only run on the Windows clusters, and the Linux workloads only run on the Linux clusters.

Therefore, the correct answer is B. Business Intent - Clusters, as this is the type of business intent that should be configured by the administrator to achieve the goal of ensuring the workloads only run on their assigned nodes. References:

• 1: VMware vRealize Operations User Guide, https://docs.vmware.com/en/vRealize-Operations/8.5/vrealize-operations-manager-85-user-guide.pdf, page 49-51, 54-55

A support bundle is a collection of log and configuration files that can help troubleshoot a vROps issue. To create a support bundle, the system administrator can use the vROps UI and select the option to create a light or full support bundle. A light support bundle includes 24 hours of logs, while a full support bundle includes all available logs and configuration files. For an intermittent issue that occurred in the last 12 hours, a light support bundle should be sufficient to collect the relevant information. The system administrator can also select the cluster nodes that need to be evaluated for support, and download the support bundle in ZIP format for analysis or sending to VMware Technical Support1. The other options are not recommended or efficient ways to collect the relevant information. Collecting the vCenter and vROps primary node logs using SSH and the vm-support utility would not include the logs from the other vROps nodes, and would require manual steps to gather and compress the files. Using the vROps UI to create a full support bundle for ESXi, vCenter, and primary vROps nodes would include unnecessary and excessive data that could slow down the process and consume more disk space. Using SSH to copy the log files from each of the vROps nodes from /var/log/warn & /var/log/messages locations would also require manual steps to gather and compress the files, and would not include the configuration files that could be useful for troubleshooting. References: 1: Create a vRealize Operations Support Bundle

Removing the corrupted node, and then disabling and re-enabling vRealize Operations Manager High Availability to reassign the primary replica role to another existing node in the cluster is the correct way to resolve the availability issue within vRealize Operations Manager. This method ensures that the cluster can continue to operate with high availability and continuous availability, as the primary replica node is responsible for providing critical services that cannot be replicated across all cluster nodes, such as Global xDB, NTP server, and GemFire locator. By removing the corrupted node, the administrator can prevent any further issues or conflicts with the cluster configuration. By disabling and re-enabling vRealize Operations Manager High Availability, the administrator can trigger the cluster to select a new primary replica node from the existing data nodes, and synchronize the data and services with the primary node. Deploying a new vRealize Operations Manager node, and then adding it to the existing cluster is not a valid option, as it does not address the primary replica role assignment, and may cause additional problems with the cluster configuration. Cloning an existing primary vRealize Operations Manager node, and then adding it into the vRealize Operations Manager cluster is not a feasible option, as it may result in duplicate node IDs, IP addresses, and hostnames, and may cause conflicts with the cluster configuration. Asking the backup administrator to restore the corrupted primary replica node, and then refreshing the nodes from thevRealize Operations Manager administrator interface is not a reliable option, as it may take a long time to restore the node, and may not guarantee the consistency and integrity of the data and services on the node. References: Remove a Node from a Cluster, section “Remove a Node from a Cluster”. About vRealize Operations Cluster Nodes, section “About vRealize Operations Cluster Nodes”. vRealize Operations Manager User Guide, section “Create and Configure Dashboards”.

 The vSphere Solution’s Default Policy is a policy that is automatically created when you add a vCenter Cloud Account to vROps. This policy applies to all the objects that are discovered and collected by the vSphere adapter. The origin of the settings in this policy is the base settings that are provided by the data adapters and solutions installed in vROps. The base settings are a collective group of rules that apply to all objects, regardless of their type or source. The vSphere Solution’s Default Policy inherits all the base settings by default, and you can modify them to suit your specific needs. The default policy setting is not defined by another administrator, nor is it added during the installation of the vROps management pack for vSphere. The settings of this policy are also not defined during the vROps OVF deployment, as they are determined by the data adapters and solutions. References: Default Policy in vRealize Operations, Configure VMware SDDC Benchmarks

According to the VMware vRealize Operations Reference Materials, the purpose of the self-provider option within the dashboard definition is to indicate whether objects appearing in the widget are defined in the widget or are provided by another widget source. The self-provider option is a checkbox that can be enabled or disabled for each widget in a dashboard. When the self-provider option is enabled, it means that the widget has its own object selector, and the user can choose the objects to display in the widget from the available inventory. When the self-provider option is disabled, it means that the widget does not have its own object selector, and the objects to display in the widget are provided by another widget in the same dashboard. For example, a widget that shows the metrics of a selected object can be configured as a non-self-provider, and it can receive the object selection from another widget that shows the list of objects. The other options are incorrect because they are either false or irrelevant. The self-provider option does not affect the refresh content setting, the custom set of metrics, or the automatic refreshing of the data in the widget display. These are separate settings that can be configured for each widget independently of the self-provider option. References: Create a Dashboard; Widget Configuration; Dashboard Interactions