Exam Details
The Advanced Design NSX-T Data Center 2.4 exam (3V0-41.19) which leads to VMware Certified Advanced Professional – Network Virtualization 2020 certification is a 50-item exam, with a passing score of 300 using a scaled method. Candidates are given an appointment time of 105 minutes, which includes five-minute seating time and adequate time to complete the exam for non-native English speakers. Actual exam time is 100 minutes.
Exam Delivery This is a proctored exam delivered at Pearson VUE testing centers, world-wide.
For more information, visit the Pearson VUE website. Certification Information For details and a complete list of requirements and recommendations for certification attainment, please reference the VMware Education Services – Certification website. Minimally Qualified Candidate The minimally qualified candidate should have 1 year of experience designing NSX-T Data Center solutions and 2 or more years designing physical and virtual data centers/networks.
Candidates will be adept at documenting requirements, risks, constraints, and assumptions. The successful candidate will likely hold additional industry-recognized IT certifications or accreditation.
The MQC should have all the knowledge contained in the exam sections listed below. Exam Sections VMware exam blueprint sections are now standardized to the seven sections below, some of which may NOT be included in the final exam blueprint depending on the exam objectives.
Section 1 – Architecture and Technologies
Section 2 – Products and Solutions
Section 3 – Planning and Designing
Section 4 – Installing, Configuring, and Setup
Section 5 – Performance-tuning, Optimization, and Upgrades
Section 6 – Troubleshooting and Repairing
Section 7 – Administrative and Operational Tasks
If a section is missing from the list below, please note it is because the exam has no testable objectives for that section. The objective numbering may be referenced in your score report at the end of your testing event for further preparation should a retake of the exam be necessary.
Sections Included in the Exam
Section 1 – Architectures and Technologies – There are no testable objectives for this section
Section 2 – VMware Products and Solutions- There are no testable objectives for this section
Section 3- Planning and Designing
Objective 3.1 – Create a Conceptual Design for NSX-T Data Center
Objective 3.2 – Create a Logical Design for NSX-T Data Center
Objective 3.3 – Create a Physical Design for NSX-T Data Center
Section 4 – Installing, Configuring, and Setup- There are no testable objectives for this section
Section 5 – Performance-tuning, Optimization, Upgrades – There are no testable objectives for this section
Section 6 – Troubleshooting and Repairing – There are no testable objectives for this section
Section 7 – Administrative and Operational Tasks – There are no testable objectives for this section
Question: 1
Which NSX-T feature is used to allocate the network bandwidth to business-critical applications and to resolve situations where several types of traffic compete for common resources?
A. LAG Uplink Profile
B. Transport Node Profiles
C. LLDP Profile
D. Network I/O Control Profiles
Answer: D
Question: 2
An architect is helping an organization with the Physical Design of an NSX-T Data Center solution and resolving a network throughput bottleneck. This information was gathered during a workshop:
• A VM running a business critical application Is peaking at ~5Gbps
• Current host uplink is configured as Active/Standby with two 10Gb NICs.
• The installed server NIC model does not support GENEVE offload.
• All VM traffic is East/West.
• The business critical application VM communicates with multiple client VMs.
Which should the architect recommend to improve vSphere VM throughput?
A. Configure the Transport Node Uplink Profile to use a Load Balance Source teaming policy with two active uplinks.
B. Deploy an additional Edge Node to the Edge Node Cluster.
C. Replace the existing network switches and routers with newer higher-performance.
D. Replace the existing NICs with a model that supports GENEVE offload.
Answer: D
Question: 3
Which three must be taken into consideration when creating a Logical Design for a planned migration? (Choose three.)
A. A transport node can attach single VLAN transport zones with single N-VDS.
B. An N-VDS with the same name can be attached to both Overlay and VLAN transport zones.
C. An N-VDS can attach to both an Overlay and a VLAN transport zone to a N-VDS having different name/s.
D. An N-VDS can only attach to a single Overlay transport zone.
E. An N-VDS can only attach to a single VLAN transport zone.
F. An N-VDS can only attach to a multiple VLAN transport nodes.
Answer:B,D,F
Question: 4
An architect is helping an organization with the Logical Design of an NSX-T Data Center solution.
This information was gathered during the Assessment Phase:
• Maximum performance and availability is required between the physical and virtual network.
• Load Balancing service is required for back-end web servers.
• NAT is required.
Which should the architect include in their design?
A. Deploy a Tler-1 gateway and connect It to an Active/Active Tier-0 gateway with ECMP configured.
B. Deploy an Active/Active Tier-0 gateway and configure ECMP.
C. Create two separate VLANs to connect the Tier-0 gateway upstream traffic and configure ECMP.
D. Deploy an Active/Passive Tier-0 gateway and configure ECMP.
Answer: A
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