HPE6-A80 Aruba Certified Design Expert Written Exam

Exam ID : HPE6-A80
Exam type : Proctored
Exam duration : 2 hours
Exam length : 60 questions
Passing score : 73%
Delivery languages : English
Supporting resources : Aruba Advanced Network Design and Solutions, Rev. 20.22

Ideal candidateAn ideal candidate has advanced design experience with Aruba solutions. The candidate is able to identify key decision makers and interview them to determine the customer’s business requirements. The candidate synthesizes this information and uses it to formulate statements that accurately describe the customer’s general connectivity, availability, security, and application requirements in order to design and integrate the solution.

Exam contents
This exam has 60 questions.
Here are types of questions to expect:
Multiple choice (multiple responses), scenario basedMultiple choice (single response), scenario basedMultiple choice (multiple responses)Multiple choice (single response)Scenarios with multiple questions
Advice to help you take this exam

Complete the training and review all course materials and documents before you take the exam.
Use HPE Press study guides and additional reference materials.
Exam items are based on expected knowledge acquired from job experience, an expected level of industry standard knowledge, or other prerequisites (events, supplemental materials, etc.).
Successful completion of the course or study materials alone, does not ensure you will pass the exam.

Examkingdom HPE HPE6-A80 Exam pdf,

MCTS Training, MCITP Trainnig

Best HPE HPE6-A80 Free downloads , HPE HPE6-A80 Dumps at Certkingdom.com


Exam policies
Click here to view exam security and retake policies.

This exam validates that you can:
Percentage of Exam
Sections/Objectives

9% Gather and analyze data, and document customer requirements.
Given an outline of a customer’s needs for a complex multi-site, multi-vendor environment, determine the information required to create a solution.

20% Evaluate the requirements, and select the wired and wireless networking technologies for the design.
Given a scenario, evaluate the customer requirements for a complex multi-site, multi-vendor environment to identify gaps per a gap analysis and select components based on the analysis results.
Given a scenario, translate the business needs of a complex multi-site, multi-vendor environment into technical customer requirements.

33% Plan and design an Aruba solution per the customer requirements.
Given a scenario, select the appropriate products based on the customer’s technical requirements for a complex multi-site, multi-vendor environment (complex integration).
Given the customer requirements for a complex multi-site multi-vendor environment, design the high-level architecture.
Given a customer scenario, explain how a specific technology or solution would meet the customer’s requirements.

30% Produce a detailed design specification document. (Network design, Visio diagram, RF plan)
Given a customer scenario for a complex multi-site, multi-vendor environment, choose the appropriate components that should be included in the BOM.
Given the customer requirements for a complex multi-site multi-vendor environment, determine the component details and document the high-level design.
Given a customer scenario for a complex multi-site multi-vendor environment, determine and document the detailed network management design.
Given a customer scenario for a complex multi-site, multi-vendor environment, design and document a detailed network security solution.
Given a customer scenario, design and document the branch access solution.
Given a customer scenario of a complex multi-site, multi-vendor environment, design and document the logical and physical network solutions.
Given the customer scenario and service level agreements, document the licensing and maintenance requirements. (Note: These will be line items in BOM [Service packs, subscriptions, uptime scenarios].)

8% Recommend the solution to the customer.
Given the customer’s requirements, explain and justify the recommended solution.

Sample questions

QUESTION 1
What is one piece of additional information architects should obtain from the customer before they design the wireless solution?

A. the power requirements for the wireless loT devices and security cameras
B. the authentication and encryption capabilities for loT devices and security cameras
C. the distance between the locations where cameras will be installed and the wiring closet on each floor
D. the average number of users per loT device

Answer: C

QUESTION2

The architect plans to recommend an upgrade to Aruba CX switches
What is one requirement for the new solution that justifies this recommendation?
A. the requirement to support secure IPsec tunneling at the aggregation layer
B. the requirement to support larger ARP tables at the aggregation layer
C. the requirement to support smart Rate at the access layer
D. the requirement to support tunneled-node at the access layer

Answer: A

QUESTION 3
For which scenario do Aruba CX 6300M Series switches meet the needs for an upgrade of the wired access layer while the Aruba CX 630QF Series switches do not?

A. The customer wants to utilize the Aruba A5 support for 002 3bz connectivity.
B. The customer wants to utilize LACP on AP515 in VSF switch configuration.
C. The Aruba CX6300M supports 10GBase-T connectivity with A5.
D. The Aruba CX 630DM support up to 75W PoE+ per port

Answer: D

QUESTION 4
An indoor sports stadium has 5.000 seats in two rings:
*The stadium has a ceiling height of 72 feet (22 m).
*There is a catwalk around the perimeter of me stadium that is 54 feet (13 m) from me floor.
*There are two scoreboards at either end of the stadium
*The construction of the stadium is concrete and steel.
The customer has indicated a preference for overhead coverage, and the wireless network should support 3500 concurrent clients.
The architect plans to install the APs on the catwalk to service sections of the floor below
Which type or antennas are recommended for the APS that provide the overhead coverage?

A. downtilt
B. high gain directional
C. high gain omnidirectional
D. vagi

Answer: B

Click to rate this post!
[Total: 0 Average: 0]