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VMware 3V0-41.22 Exam Path

It is necessary for the minimally qualified candidate to have earned a certification. The MQC should have taken the V3.X course from the VMware NSX-T Data Center. It is recommended that the MQC have at least 1 to 2 years of experience working in a data center with virtual networks and deploy NSX-T Data Center solutions.

The MQC needs to be able to describe, understand, and explain data center and network virtualization, as well as NSX-T Data Center products and technologies, but may occasionally need to research topics to answer questions. Occasionally, the MQC will need to research topics or request assistance from a more senior individual, but they are able to deploy, administrate, optimize, and troubleshoot NSX-T Data Center solutions.

It is possible for the MQC to navigate the Data CenterUI, but sometimes it is necessary to look up actions. knowledge of the objectives shown in the exam sections should be possessed by the MQC. You can show your employer that you have the skills and knowledge to work with VMware. VMware 3V0-41.22 Exam Dumps will help you build your portfolio. Although you can study on your own, it's best to have someone who can give you feedback on your progress. You can use our free VMware 3V0-41.22 practice exams to check your progress.

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VMware 3V0-41.22: Advanced Deploy VMware NSX-T Data Center 3.X exam is a challenging certification that requires comprehensive knowledge and hands-on experience with VMware NSX-T Data Center 3.X technology. Candidates must be able to demonstrate their ability to design, deploy, configure, and troubleshoot complex NSX-T Data Center 3.X solutions. Advanced Deploy VMware NSX-T Data Center 3.X certification is recognized globally and is highly valued by IT organizations that use VMware NSX-T Data Center 3.X technology.

VMware 3V0-41.22 exam is designed to test the knowledge and skills of IT professionals in deploying VMware NSX-T Data Center 3.x. Advanced Deploy VMware NSX-T Data Center 3.X certification exam is intended for experienced IT professionals who have already deployed VMware NSX-T in a production environment and are looking to enhance their skills and knowledge. 3V0-41.22 Exam covers a wide range of topics, including NSX-T architecture, deployment, configuration, troubleshooting, and security, and requires a deep understanding of VMware NSX-T data center technologies.

VMware Advanced Deploy VMware NSX-T Data Center 3.X Sample Questions (Q12-Q17):

NEW QUESTION # 12
SIMULATION
Task 3
You are asked to deploy a new instance of NSX-T into an environment with two isolated tenants. These tenants each have separate physical data center cores and have standardized on BCP as a routing protocol.
You need to:

Complete the requested task.
Notes: Passwords are Contained in the user_readme.txt. Task 3 is dependent on the Completion Of Task and 2. Other tasks are dependent On the Completion Of this task. Do not wait for configuration changes to be applied in this task as processing may take up to 10 minutes to complete. Check back on completion. This task should take approximately 10 minutes to complete.

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions Explanation:
To deploy a new instance of NSX-T into an environment with two isolated tenants, you need to follow these steps:
Log in to the NSX Manager UI with admin credentials. The default URL is https://<nsx-manager-ip-address>.
Navigate to System > Fabric > Nodes > Edge Transport Nodes and click Add Edge VM.
Enter a name and an optional description for the edge VM. Select the compute manager, cluster, and resource pool where you want to deploy the edge VM. Click Next.
Select the deployment size and form factor for the edge VM. For this task, you can select Medium as the size and VM as the form factor. Click Next.
Select the datastore and folder where you want to store the edge VM files. Click Next.
Configure the management network settings for the edge VM. Enter a hostname, a management IP address, a default gateway, a DNS server, and a domain search list. Optionally, you can enable SSH and join the edge VM to a domain. Click Next.
Configure the transport network settings for the edge VM. Select an N-VDS as the host switch type and enter a name for it. Select an uplink profile from the drop-down menu or create a new one by clicking New Uplink Profile. Map the uplinks to the physical NICs on the edge VM. For example, map Uplink 1 to fp-eth0 and Uplink 2 to fp-eth1. Optionally, you can configure IP assignment, MTU, or LLDP for the uplinks. Click Next.
Review the configuration summary and click Finish to deploy the edge VM.
Repeat steps 2 to 8 to deploy another edge VM for redundancy.
Navigate to Networking > Tier-0 Gateway and click Add Gateway > VRF.
Enter a name and an optional description for the VRF gateway. Select an existing tier-0 gateway as the parent gateway or create a new one by clicking New Tier-0 Gateway.
Click VRF Settings and enter a VRF ID for the tenant. Optionally, you can enable EVPN settings if you want to use EVPN as the control plane protocol for VXLAN overlay networks.
Click Save to create the VRF gateway.
Repeat steps 10 to 13 to create another VRF gateway for the second tenant with a different VRF ID.
Navigate to Networking > Segments and click Add Segment.
Enter a name and an optional description for the segment. Select VLAN as the connectivity option and enter a VLAN ID for the segment. For example, enter 128 for Tenant A's first uplink VLAN segment.
Select an existing transport zone from the drop-down menu or create a new one by clicking New Transport Zone.
Click Save to create the segment.
Repeat steps 15 to 18 to create three more segments for Tenant A's second uplink VLAN segment (VLAN ID 129) and Tenant B's uplink VLAN segments (VLAN ID 158 and 159).
Navigate to Networking > Tier-0 Gateway and select the VRF gateway that you created for Tenant A.
Click Interfaces > Set > Add Interface.
Enter a name and an optional description for the interface.
Enter the IP address and mask for the external interface in CIDR format, such as 10.10.10.1/24.
In Type, select External.
In Connected To (Segment), select the VLAN segment that you created for Tenant A's first uplink VLAN segment (VLAN ID 128).
Select an edge node where you want to attach the interface, such as Edge-01.
Enter the Access VLAN ID from the list as configured for the segment, such as 128.
Click Save and then Close.
Repeat steps 21 to 28 to create another interface for Tenant A's second uplink VLAN segment (VLAN ID 129) on another edge node, such as Edge-02.
Repeat steps 20 to 29 to create two interfaces for Tenant B's uplink VLAN segments (VLAN ID 158 and 159) on each edge node using their respective VRF gateway and IP addresses.
Configure BGP on each VRF gateway using NSX UI or CLI commands12. You need to specify the local AS number, remote AS number, BGP neighbors, route redistribution, route filters, timers, authentication, graceful restart, etc., according to your requirements34.
Configure BGP on each physical router using their respective CLI commands56. You need to specify similar parameters as in step 31 and ensure that they match with their corresponding VRF gateway settings78.
Verify that BGP sessions are established between each VRF gateway and its physical router neighbors using NSX UI or CLI commands . You can also check the routing tables and BGP statistics on each device .
You have successfully deployed a new instance of NSX-T into an environment with two isolated tenants using VRF Lite and BGP.

NEW QUESTION # 13
SIMULATION
Task 14
An administrator has seen an abundance of alarms regarding high CPU usage on the NSX Managers. The administrator has successfully cleared these alarms numerous times in the past and is aware of the issue. The administrator feels that the number of alarms being produced for these events is overwhelming the log files.
You need to:
* Review CPU Sensitivity and Threshold values.
Complete the requested task.
Notes: Passwords are contained in the user_readme.txt. This task is not dependent on other tasks. This task should take approximately 5 minutes to complete.

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions Explanation:
To review CPU sensitivity and threshold values, you need to follow these steps:
Log in to the NSX Manager UI with admin credentials. The default URL is https://<nsx-manager-ip-address>.
Navigate to System > Settings > System Settings > CPU and Memory Thresholds.
You will see the current values for CPU and memory thresholds for NSX Manager, NSX Controller, and NSX Edge. These values determine the percentage of CPU and memory usage that will trigger an alarm on the NSX Manager UI.
You can modify the default threshold values by clicking Edit and entering new values in the text boxes. For example, you can increase the CPU threshold for NSX Manager from 80% to 90% to reduce the number of alarms for high CPU usage. Click Save to apply the changes.
You can also view the historical data for CPU and memory usage for each component by clicking View Usage History. You can select a time range and a granularity level to see the usage trends and patterns over time

NEW QUESTION # 14
SIMULATION
Task 10
You have been notified by the Web Team that they cannot get to any northbound networks from their Tampa web servers that are deployed on an NSX-T network segment. The Tampa web VM's however can access each other.
You need to:
* Troubleshoot to find out why the Tampa web servers cannot communicate to any northbound networks and resolve the issue.
Complete the requested task. TO verify your work. ping the Control Center @ 192.168.110.10 Notes: Passwords are contained in the user_readme.txt. This task is dependent on Task 4. Some exam candidates may have already completed this task if they had done more than the minimum required in Task 4. This task should take approximately 15 minutes to complete.

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions Explanation:
To troubleshoot why the Tampa web servers cannot communicate to any northbound networks, you need to follow these steps:
Log in to the NSX Manager UI with admin credentials. The default URL is https://<nsx-manager-ip-address>.
Navigate to Networking > Tier-0 Gateway and select the tier-0 gateway that connects the NSX-T network segment to the northbound networks. For example, select T0-GW-01.
Click Interfaces > Set and verify the configuration details of the interfaces. Check for any discrepancies or errors in the parameters such as IP address, subnet mask, MTU, etc.
If you find any configuration errors, click Edit and modify the parameters accordingly. Click Save to apply the changes.
If you do not find any configuration errors, check the connectivity and firewall rules between the tier-0 gateway and the northbound networks. You can use ping or traceroute commands from the NSX Edge CLI or the vSphere Web Client to test the connectivity. You can also use show service router command to check the status of the routing service on the NSX Edge.
If you find any connectivity or firewall issues, resolve them by adjusting the network settings or firewall rules on the NSX Edge or the northbound devices.
After resolving the issues, verify that the Tampa web servers can communicate to any northbound networks by pinging the Control Center @ 192.168.110.10 from one of the web servers.

NEW QUESTION # 15
SIMULATION
Task 16
You are working to automate your NSX-T deployment and an automation engineer would like to retrieve your BOP routing information from the API.
You need to:
* Run the GET call in the API using Postman
* Save output to the desktop to a text file called API.txt
Complete the requested task.
Notes: Passwords are contained in the user _ readme.txt. This task is not dependent on another. This task should take approximately 5 minutes to complete.

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions Explanation:
To run the GET call in the API using Postman and save the output to the desktop to a text file called API.txt, you need to follow these steps:
Open Postman and create a new request tab. Select GET as the method from the drop-down menu.
Enter the URL of the NSX-T Policy API endpoint for retrieving the BGP routing table, such as https://<nsx-manager-ip-address>/policy/api/v1/infra/tier-0s/vmc/routing-table?enforcement_point_path=/infra/sites/default/enforcement-points/vmc-enforcementpoint Click the Authorization tab and select Basic Auth as the type from the drop-down menu. Enter your NSX-T username and password in the Username and Password fields, such as admin and VMware1!.
Click Send to execute the request and view the response in the Body tab. You should see a JSON object with the BGP routing table information, such as routes, next hops, prefixes, etc.
Click Save Response and select Save to a file from the drop-down menu. Enter API.txt as the file name and choose Desktop as the location. Click Save to save the output to your desktop.
You have successfully run the GET call in the API using Postman and saved the output to your desktop to a text file called API.txt.

NEW QUESTION # 16
SIMULATION
Task 4
You are tasked with creating a logical load balancer for several web servers that were recently deployed.
You need to:

Complete the requested task.
Notes:
Passwords are contained in the user_readme.txt. Do not wait for configuration changes to be applied in this task as processing may take some time to complete. This task should take up to 35 minutes to complete and is required for subsequent tasks.

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions Explanation:
To create a logical load balancer for several web servers, you need to follow these steps:
Log in to the NSX Manager UI with admin credentials. The default URL is https://<nsx-manager-ip-address>.
Navigate to Networking > Load Balancing > Load Balancers and click Add Load Balancer.
Enter a name and an optional description for the load balancer. Select the tier-1 gateway where you want to attach the load balancer from the drop-down menu or create a new one by clicking New Tier-1 Gateway. Click Save.
Navigate to Networking > Load Balancing > Application Profiles and click Add Application Profile.
Enter a name and an optional description for the application profile. Select HTTP as the application type from the drop-down menu. Optionally, you can configure advanced settings such as persistence, X-Forwarded-For, SSL offloading, etc., for the application profile. Click Save.
Navigate to Networking > Load Balancing > Monitors and click Add Monitor.
Enter a name and an optional description for the monitor. Select HTTP as the protocol from the drop-down menu. Optionally, you can configure advanced settings such as interval, timeout, fall count, rise count, etc., for the monitor. Click Save.
Navigate to Networking > Load Balancing > Server Pools and click Add Server Pool.
Enter a name and an optional description for the server pool. Select an existing application profile from the drop-down menu or create a new one by clicking New Application Profile. Select an existing monitor from the drop-down menu or create a new one by clicking New Monitor. Optionally, you can configure advanced settings such as algorithm, SNAT translation mode, TCP multiplexing, etc., for the server pool. Click Save.
Click Members > Set > Add Member and enter the IP address and port number of each web server that you want to add to the server pool. For example, enter 192.168.10.10:80 and 192.168.10.11:80 for two web servers listening on port 80. Click Save and then Close.
Navigate to Networking > Load Balancing > Virtual Servers and click Add Virtual Server.
Enter a name and an optional description for the virtual server. Enter the IP address and port number of the virtual server that will receive the client requests, such as 10.10.10.100:80. Select HTTP as the service profile from the drop-down menu or create a new one by clicking New Service Profile. Select an existing server pool from the drop-down menu or create a new one by clicking New Server Pool. Optionally, you can configure advanced settings such as access log, connection limit, rate limit, etc., for the virtual server. Click Save.
You have successfully created a logical load balancer for several web servers using NSX-T Manager UI.

NEW QUESTION # 17
......

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