FRENQUENT 3V0-41.22 UPDATE | VALID 3V0-41.22 STUDY GUIDE

Frenquent 3V0-41.22 Update | Valid 3V0-41.22 Study Guide

Frenquent 3V0-41.22 Update | Valid 3V0-41.22 Study Guide

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Tags: Frenquent 3V0-41.22 Update, Valid 3V0-41.22 Study Guide, 3V0-41.22 Test Review, 3V0-41.22 Latest Test Testking, 3V0-41.22 Cert Guide

Actual4Dumps assists people in better understanding, studying, and passing more difficult certification exams. We take pride in successfully servicing industry experts by always delivering safe and dependable 3V0-41.22 exam preparation materials. For your convenience, Actual4Dumps has prepared authentic Advanced Deploy VMware NSX-T Data Center 3.X (3V0-41.22) exam study material based on a real exam syllabus to help candidates go through their 3V0-41.22 exams.

To be eligible for the VMware 3V0-41.22 certification exam, candidates must have completed the VMware NSX-T Data Center 3.x: Install, Configure, Manage course or have equivalent knowledge and experience. 3V0-41.22 exam consists of 60 multiple-choice questions that must be completed within 120 minutes. A passing score of 300 is required on a scale of 100-500. 3V0-41.22 Exam is available in English and Japanese and can be taken at any Pearson VUE testing center worldwide, or online via the Pearson VUE OnVUE platform. Upon passing the exam, candidates will be awarded the VMware Certified Advanced Professional - Network Virtualization 2021 (VCAP-NV 2021) certification.

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VMware 3V0-41.22 Certification Exam is designed to test the knowledge and skills of professionals who are responsible for deploying and managing VMware NSX-T Data Center 3.X environments. This advanced-level certification exam is a part of the VMware Certified Advanced Professional (VCAP) program, and it is intended for experienced VMware professionals who have already gained expertise in virtualization, networking, and security technologies.

VMware 3V0-41.22 certification exam consists of 60 multiple-choice questions that must be completed within 120 minutes. 3V0-41.22 exam covers a wide range of topics, including VMware NSX-T Data Center architecture and components, networking and security concepts, virtualization and containerization technologies, and automation and orchestration tools. To pass the exam, the candidate must achieve a minimum score of 300 out of 500 points. Upon passing the exam, the candidate will earn the VMware Certified Advanced Professional (VCAP) – Data Center Virtualization (DCV) Design certification, which is a prestigious certification that validates the candidate's advanced skills and expertise in VMware NSX-T Data Center 3.X.

VMware Advanced Deploy VMware NSX-T Data Center 3.X Sample Questions (Q10-Q15):

NEW QUESTION # 10
Task 11
upon testing the newly configured distributed firewall policy for the Boston application. it has been discovered that the Boston-Web virtual machines can be "pinged" via ICMP from the main console. Corporate policy does not allow pings to the Boston VMs.
You need to:
* Troubleshoot ICMP traffic and make any necessary changes to the Boston application security policy.
Complete the requested task.
Notes: Passwords are contained in the user _readme.txt. This task is dependent on Task 5.

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions.
Explanation
To troubleshoot ICMP traffic and make any necessary changes to the Boston application security policy, 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 Security > Distributed Firewall and select the firewall policy that applies to the Boston application. For example, select Boston-web-Application.
Click Show IPSec Statistics and view the details of the firewall rule hits and logs. You can see which rules are matching the ICMP traffic and which actions are taken by the firewall.
If you find that the ICMP traffic is allowed by a rule that is not intended for it, you can edit the rule and change the action to Drop or Reject. You can also modify the source, destination, or service criteria of the rule to make it more specific or exclude the ICMP traffic.
If you find that the ICMP traffic is not matched by any rule, you can create a new rule and specify the action as Drop or Reject. You can also specify the source, destination, or service criteria of the rule to match only the ICMP traffic from the main console to the Boston web VMs.
After making the changes, click Publish to apply the firewall policy.
Verify that the ICMP traffic is blocked by pinging the Boston web VMs from the main console again.You should see a message saying "Request timed out" or "Destination unreachable".


NEW QUESTION # 11
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 # 12
SIMULATION
Task 12
An issue with the Tampa web servers has been reported. You would like to replicate and redirect the web traffic to a network monitoring tool outside Of the NSX-T environment to further analyze the traffic.
You are asked to configure traffic replication to the monitoring software for your Tampa web overlay segments with bi-directional traffic using this detail:

Complete the requested configuration.
Notes: Passwords are contained in the user_readme.txt. This task is not dependent on other tasks. 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 configure traffic replication to the monitoring software for your Tampa web overlay segments with bi-directional traffic, 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 > Segments and select the Tampa web overlay segment that you want to replicate the traffic from. For example, select Web-01 segment that you created in Task 2.
Click Port Mirroring > Set > Add Session and enter a name and an optional description for the port mirroring session. For example, enter Tampa-Web-Monitoring.
In the Direction section, select Bi-directional as the direction from the drop-down menu. This will replicate both ingress and egress traffic from the source to the destination.
In the Source section, click Set and select the VMs or logical ports that you want to use as the source of the traffic. For example, select Web-VM-01 and Web-VM-02 as the source VMs. Click Apply.
In the Destination section, click Set and select Remote L3 SPAN as the destination type from the drop-down menu. This will allow you to replicate the traffic to a remote destination outside of the NSX-T environment.
Enter the IP address of the destination device where you have installed the network monitoring software, such as 10.10.10.200.
Select an existing service profile from the drop-down menu or create a new one by clicking New Service Profile. A service profile defines the encapsulation type and other parameters for the replicated traffic.
Optionally, you can configure advanced settings such as TCP/IP stack, snap length, etc., for the port mirroring session.
Click Save and then Close to create the port mirroring session.
You have successfully configured traffic replication to the monitoring software for your Tampa web overlay segments with bi-directional traffic using NSX-T Manager UI.


NEW QUESTION # 13
Task 12
An issue with the Tampa web servers has been reported. You would like to replicate and redirect the web traffic to a network monitoring tool outside Of the NSX-T environment to further analyze the traffic.
You are asked to configure traffic replication to the monitoring software for your Tampa web overlay segments with bi-directional traffic using this detail:

Complete the requested configuration.
Notes: Passwords are contained in the user_readme.txt. This task is not dependent on other tasks. 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 configure traffic replication to the monitoring software for your Tampa web overlay segments with bi-directional traffic, 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 > Segments and select the Tampa web overlay segment that you want to replicate the traffic from. For example, select Web-01 segment that you created in Task 2.
Click Port Mirroring > Set > Add Session and enter a name and an optional description for the port mirroring session. For example, enter Tampa-Web-Monitoring.
In the Direction section, select Bi-directional as the direction from the drop-down menu. This will replicate both ingress and egress traffic from the source to the destination.
In the Source section, click Set and select the VMs or logical ports that you want to use as the source of the traffic. For example, select Web-VM-01 and Web-VM-02 as the source VMs. Click Apply.
In the Destination section, click Set and select Remote L3 SPAN as the destination type from the drop-down menu. This will allow you to replicate the traffic to a remote destination outside of the NSX-T environment.
Enter the IP address of the destination device where you have installed the network monitoring software, such as 10.10.10.200.
Select an existing service profile from the drop-down menu or create a new one by clicking New Service Profile. A service profile defines the encapsulation type and other parameters for the replicated traffic.
Optionally, you can configure advanced settings such as TCP/IP stack, snap length, etc., for the port mirroring session.
Click Save and then Close to create the port mirroring session.
You have successfully configured traffic replication to the monitoring software for your Tampa web overlay segments with bi-directional traffic using NSX-T Manager UI.


NEW QUESTION # 14
SIMULATION
Task 7
you are asked to create a custom QoS profile to prioritize the traffic on the phoenix-VLAN segment and limit the rate of ingress traffic.
You need to:
* Create a custom QoS profile for the phoenix-VLAN using the following configuration detail:

* Apply the profile on the 'phoenix-VLAN' segment
Complete the requested task.
Notes: Passwords are contained in the user_readme.txt.
take approximately 5 minutes to complete.
Subsequent tasks may require the completion of this task. This task should

Answer:

Explanation:
See the Explanation part of the Complete Solution and step by step instructions Explanation:
To create a custom QoS profile to prioritize the traffic on the phoenix-VLAN segment and limit the rate of ingress traffic, 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 > Segments > Switching Profiles and click Add Switching Profile. Select QoS as the profile type.
Enter a name and an optional description for the QoS profile, such as phoenix-QoS.
In the Mode section, select Untrusted as the mode from the drop-down menu. This will allow you to set a custom DSCP value for the outbound IP header of the traffic on the segment.
In the Priority section, enter 46 as the DSCP value. This will mark the traffic with Expedited Forwarding (EF) per-hop behavior, which is typically used for high-priority applications such as voice or video.
In the Class of Service section, enter 5 as the CoS value. This will map the DSCP value to a CoS value that can be used by VLAN-based logical ports or physical switches to prioritize the traffic.
In the Ingress section, enter 1000000 as the Average Bandwidth in Kbps. This will limit the rate of inbound traffic from the VMs to the logical network to 1 Mbps.
Optionally, you can also configure Peak Bandwidth and Burst Size settings for the ingress traffic, which will allow some burst traffic above the average bandwidth limit for a short duration.
Click Save to create the QoS profile.
Navigate to Networking > Segments and select the phoenix-VLAN segment that you want to apply the QoS profile to.
Click Actions > Apply Profile and select phoenix-QoS as the switching profile that you want to apply to the segment.
Click Apply to apply the profile to the segment.
You have successfully created a custom QoS profile and applied it to the phoenix-VLAN segment.


NEW QUESTION # 15
......

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