Practice Free 3V0-42.23 Exam Online Questions
A company is planning to use NSX to provide network services for a highly distributed application that spans multiple data centers and cloud environments. A Solutions Architect is responsible for designing the network services to ensure that the application is highly available and performs well.
Which of the following NSX features should the Solutions Architect use to achieve this goal?
- A . Network Address Translation (NAT)
- B . Virtual Private Networks (VPNs)
- C . Distributed Firewall
- D . Advanced Load Balancer
D
Explanation:
A rapidly growing e-commerce company, with a global customer base, is seeking to enhance their current network infrastructure to ensure a seamless and secure user experience. They have opted for VMware NSX to leverage software-defined networking (SDN) capabilities, and are particularly interested in employing NSX Edge to maximize their network performance.
A solutions architect is tasked with designing an effective and efficient solution using NSX Edge that meets the customer’s requirements. The design should incorporate North-South routing to handle traffic to and from the internet.
To meet the company’s requirements, what optimal solution should the solutions architect recommend, utilizing NSX Edge?
- A . Deploy a single NSX Edge node for North-South routing services.
- B . Deploy a single NSX Edge node and use a separate physical router for East-West routing.
- C . Deploy multiple NSX Edge nodes and configure a Tier-0 Gateway in Active-Standby mode for North-South routing services.
- D . Deploy multiple NSX Edge nodes and configure a Tier-0 Gateway in Active-Active mode for North-South routing services.
D
Explanation:
NSX Distributed Firewall supports which of the following capabilities? (Choose two)
- A . Rule application at the network perimeter only
- B . Granular segmentation within the data center
- C . Stateful firewall protection for VMs
- D . Physical server protection
NSX Distributed Firewall supports which of the following capabilities? (Choose two)
- A . Rule application at the network perimeter only
- B . Granular segmentation within the data center
- C . Stateful firewall protection for VMs
- D . Physical server protection
NSX Distributed Firewall supports which of the following capabilities? (Choose two)
- A . Rule application at the network perimeter only
- B . Granular segmentation within the data center
- C . Stateful firewall protection for VMs
- D . Physical server protection
NSX failover detection mechanisms include?
- A . Beacon probing
- B . Link status monitoring
- C . Heartbeat signals
- D . All of the above
A Solutions Architect is designing an NSX solution for a customer.
Which of the following would be an example of a logical design for this project?
- A . A set of instructions for installing and configuring the NSX software.
- B . A detailed diagram of the interfaces for the NSX Edge components in the data center.
- C . A high-level overview of the NSX solution, including objectives of the implementation.
- D . A detailed description of the NSX configuration, including VLAN and IP address assignments.
C
Explanation:
A logical design defines the high-level structure and objectives of an NSX implementation without getting into the specifics of configuration details (which are part of the physical design).
Logical Design Includes:
Network Segmentation Strategy
Traffic Flow Considerations (East-West & North-South)
Security & Micro-Segmentation Policies
Integration with Physical and Cloud Networks
Incorrect Options:
(A – Instructions for Installation) → This belongs to the implementation phase (not logical design).
(B – Interface Diagrams) → These belong to the physical design.
(D – VLAN & IP Assignments) → These are detailed configuration steps, not part of high-level design.
VMware NSX 4.x
Reference: VMware NSX-T Reference Design Guide NSX-T Data Center Logical & Physical Design Considerations
A Solutions Architect is designing an NSX solution for a customer.
Which of the following would be an example of a logical design for this project?
- A . A set of instructions for installing and configuring the NSX software.
- B . A detailed diagram of the interfaces for the NSX Edge components in the data center.
- C . A high-level overview of the NSX solution, including objectives of the implementation.
- D . A detailed description of the NSX configuration, including VLAN and IP address assignments.
C
Explanation:
A logical design defines the high-level structure and objectives of an NSX implementation without getting into the specifics of configuration details (which are part of the physical design).
Logical Design Includes:
Network Segmentation Strategy
Traffic Flow Considerations (East-West & North-South)
Security & Micro-Segmentation Policies
Integration with Physical and Cloud Networks
Incorrect Options:
(A – Instructions for Installation) → This belongs to the implementation phase (not logical design).
(B – Interface Diagrams) → These belong to the physical design.
(D – VLAN & IP Assignments) → These are detailed configuration steps, not part of high-level design.
VMware NSX 4.x
Reference: VMware NSX-T Reference Design Guide NSX-T Data Center Logical & Physical Design Considerations
Which of the following are main components of the NSX Federation architecture? (Choose two)
- A . Global Manager
- B . Local Manager
- C . Site-specific DHCP services
- D . Centralized physical routers
What does a best practice for NSX Edge VM design include?
- A . Sizing based on the throughput requirements
- B . Always using the smallest possible size for cost savings
- C . Deploying on the least powerful host to conserve resources
- D . Ignoring redundancy to simplify the architecture