HPE Network Campus Access Professional Architect v1.0

You are participating in a multi-team design workshop for a large enterprise campus and data center refresh project. The network engineering team has selected an EVPN-VXLAN-based fabric to support scalable Layer 2/3 services, improve segmentation, and streamline future automation.
As part of the session, you’ve been asked to contribute to the technical design recommendations document, which will serve as the foundation for the project’s implementation plan. This includes documenting best practices, control-plane design, and overlay requirements for the EVPN-VXLAN fabric.
You need to identify the accurate core recommendations, required features, and key design functions to be included in the proposal.
What accurately describe core recommendations, requirements, features, or functions of EVPN-VXLAN fabrics? (Choose two.)

An insurance company is planning to modernize its current Wi-Fi 4 deployment in its downtown office building. At the time, network was designed around a 2.4 GHz radio coverage strategy. They are targeting a high-throughput, high-density (HD) design to future-proof its investment. Your team is proposing a new site survey aligned with modern wireless design principles.
The CTO believes the site is prepared for Wi-Fi 6E standard or newer, referencing a previous site survey conducted four years ago. This same site survey confirmed the reuse of current cabling and existing access point installation locations.
Which statement about a 6 GHz design is correct?

When is a Mode Conditioning Patch Cable required?

You are developing a wireless intrusion detection and prevention strategy (WIDS/WIPS) for a client’s enterprise network using HPE Aruba Networking and AOS-10. As part of your design, you want to deploy dedicated Air Monitors (AMs).
Which two statements align with HPE Aruba Networking best practices for implementing AMs in an AOS-10 environment? (Choose two.)

Identify the stakeholders when gathering information for the network design and new IDF/MDF design. (Choose two.)

What is the recommended bandwidth of a VSX Inter-Switch Link?

What are two concerns for C-level executives and managerial stakeholders? (Choose two.)

You hired a junior engineer to assist you with a large-scale network infrastructure project. The engineer has never worked on such a complex project before and wants to better understand the role that each stakeholder will play in the project.
What is the role of Network Operations in this project?

Refer to the exhibit.

Your client is deploying an HPE Aruba Networking solution where AOS-10 APs are configured in bridged mode and directly connected to AOS-CX access switches within a campus environment.
One of the top security priorities is to block user traffic to any destination that falls under the BrightCloud Web Classification of "Bot Nets". You’ve been asked to review and confirm the correct technical steps that will enable accurate identification, classification, and blocking of such traffic through Central managed policies and AOS-CX integration.
To block user access to the specified web destination(s) in this deployment model, which actions should be taken?

Which statement accurately reflect valid high-availability features (VSX or VSF) for AOS-CX switches commonly used in enterprise campus environments? (Choose two.)

During a stakeholder interview, an agenda is created to clarify their expectations of the network design project.
Which two topics highlight the customer's experience with their network? (Choose two.)

You and the customer decide that DUR should be used for centralized policy management. The plan also includes dynamic VNBT-based distributed Dynamic Segmentation. Which switch model should be used?

A global cruise line company needs to refresh its current fleet. They will refresh the 'insides' of the ship to be cost-effective and increase their sustainability. They will replace the complete WLAN/LAN hardware of the ship. In this refresh, the company will not refresh its current security requirements. The CIO also wants to limit the number of unused ports in the switches. Future expansion will always mean a refresh of hardware. They start with the smallest ship with a maximum of 800 guests.
Each ship has a LAN infrastructure consisting of two core switches, up to 10 redundant distribution switches, and up to 500 access switches (400 cabins, 100 technical rooms). The Core switches are located in the MDF of the ship and the distribution switches are located in the IDFs of the ship. Each cabin and technical room gets one single access switch.
The cabling structure of the ship will not be refreshed. Each IDF is connected to the MDF by SMF, of which two pairs are available for the interconnect between the core and distribution. The length of SM fiber between MDF and IDF is less than 300 meters (980 ft) and the type used is OS1. Each cabin is connected by a single OM2 pair to the IDF, the maximum length is 60 meters (200 ft). Each technical room is connected by a single OM2 pair to the IDF, with lengths between 100 and 150 meters (320 and 500 ft).
For each cabin/technical room the customer is looking to replace their current fan-less 2530/2540 without changing the requirements, except they need to upgrade the uplink to distribution switch to 10GbE to handle the increased network traffic, and the technical rooms need redundant power.
The WLAN infrastructure will be 1:1 refreshed without new cabling or new AP locations. Their WLAN infrastructure is based on the 200/300 series indoor and outdoor APs running InstantOS (less than 300 APs), the customer has no change in WLAN requirements.
The cruise line company will replace its current Internet connection before the LAN/WLAN refresh. The new Internet connection will provide a 99.8% uptime, which is needed to ensure the paid guest Wi-Fi is always operational. With this new internet connection, the CIO of the cruise line wants to base the design on the ESP architecture from Aruba because Internet connection is guaranteed.
Based on the best practices, what should be recommended as the most cost-effective switch model for the technical rooms?

A global cruise line company needs to refresh its current fleet. They will refresh the 'insides' of the ship to be cost-effective and increase their sustainability. They will replace the complete WLAN/LAN hardware of the ship. In this refresh, the company will not refresh its current security requirements. The CIO also wants to limit the number of unused ports in the switches. Future expansion will always mean a refresh of hardware. They start with the smallest ship with a maximum of 800 guests.
Each ship has a LAN infrastructure consisting of two core switches, up to 10 redundant distribution switches, and up to 500 access switches (400 cabins, 100 technical rooms). The Core switches are located in the MDF of the ship and the distribution switches are located in the IDFs of the ship. Each cabin and technical room gets one single access switch.
The cabling structure of the ship will not be refreshed. Each IDF is connected to the MDF by SMF, of which two pairs are available for the interconnect between the core and distribution. The length of SM fiber between MDF and IDF is less than 300 meters (980 ft) and the type used is OS1. Each cabin is connected by a single OM2 pair to the IDF, the maximum length is 60 meters (200 ft). Each technical room is connected by a single OM2 pair to the IDF, with lengths between 100 and 150 meters (320 and 500 ft).
For each cabin/technical room the customer is looking to replace their current fan-less 2530/2540 without changing the requirements, except they need to upgrade the uplink to distribution switch to 10GbE to handle the increased network traffic, and the technical rooms need redundant power.
The WLAN infrastructure will be 1:1 refreshed without new cabling or new AP locations. Their WLAN infrastructure is based on the 200/300 series indoor and outdoor APs running InstantOS (less than 300 APs), the customer has no change in WLAN requirements.
The cruise line company will replace its current Internet connection before the LAN/WLAN refresh. The new Internet connection will provide a 99.8% uptime, which is needed to ensure the paid guest Wi-Fi is always operational. With this new internet connection, the CIO of the cruise line wants to base the design on the ESP architecture from Aruba because Internet connection is guaranteed.
Based on the best practices, what should you recommend as the correct optic type for the connection between the IDF and the cabins?