LATEST RELEASED HP HPE7-A01 NEW REAL TEST: ARUBA CERTIFIED CAMPUS ACCESS PROFESSIONAL EXAM - TEST HPE7-A01 COLLECTION

Latest Released HP HPE7-A01 New Real Test: Aruba Certified Campus Access Professional Exam - Test HPE7-A01 Collection

Latest Released HP HPE7-A01 New Real Test: Aruba Certified Campus Access Professional Exam - Test HPE7-A01 Collection

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Tags: HPE7-A01 New Real Test, Test HPE7-A01 Collection, HPE7-A01 Updated Dumps, HPE7-A01 Exam Sample, HPE7-A01 Valid Braindumps Free

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As we all know, through the judicial examination, you need to become a lawyer, when the teacher is need through the teachers' qualification examinations. If you want to be an excellent elites in this line, you need to get the Aruba Certified Campus Access Professional Exam certification, thus it can be seen through the importance of qualification examination. Only through qualification examination, has obtained the corresponding qualification certificate, we will be able to engage in related work, so the HPE7-A01 Test Torrent is to help people in a relatively short period of time a great important tool to pass the qualification test.

HPE7-A01 certification exam is a valuable credential for professionals who work in the field of network infrastructure. It is recognized by IT professionals and organizations worldwide as a benchmark for excellence in the field of wireless and wired networking. Achieving the Aruba Certified Campus Access Professional certification can help professionals to advance their careers and open up new opportunities for growth and development.

HP HPE7-A01 exam is intended for network professionals who work with Aruba WLAN solutions and have a minimum of two years of experience in designing and implementing wireless solutions. HPE7-A01 exam is ideal for network engineers, network administrators, and wireless engineers who want to validate their skills and gain recognition for their expertise in wireless networking. By obtaining the ACCP certification, professionals can differentiate themselves in the job market and demonstrate their commitment to ongoing professional development in the field of wireless networking.

HPE7-A01 certification exam is a computer-based exam that consists of 60 multiple-choice questions. Candidates are given two hours to complete the exam, and a passing score of 75% is required to earn the certification. HPE7-A01 Exam is available in several languages, including English, Japanese, Simplified Chinese, and Korean.

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These HP HPE7-A01 exam questions give you an idea about the final HP HPE7-A01 exam questions formats, exam question structures, and best possible answers, and you will also enhance your exam time management skills. Finally, at the end of HPE7-A01 Exam Practice test you will be ready to pass the final HPE7-A01 exam easily. Best of luck in Aruba Certified Campus Access Professional Exam (HPE7-A01) exam and professional career!!!

HP Aruba Certified Campus Access Professional Exam Sample Questions (Q94-Q99):

NEW QUESTION # 94
A customer just upgraded aggregation layer switches and noticed traffic dropping for 120 seconds after the aggregation layer came online again.
What is the best way to avoid having this traffic dropped given the topology below?

  • A. Configure the linkup delay timer to 120 seconds, which will allow the right amount of time for the initial phase to sync
  • B. Configure the linkup delay timer to exclude LAGS 101 and 102, which will allow time for routing adjacencies to form and to learn upstream routes
  • C. Configure the linkup delay timer to 240 seconds to double the amount of lime for the initial phase to sync
  • D. Configure the linkup delay timer to include LAGs 101 and 102, which will allow time for routing adjacencies lo form and to learn upstream routes

Answer: D

Explanation:
The reason is that the linkup delay timer is a feature that delays bringing downstream VSX links up, following a VSX device reboot or an ISL flap. The linkup delay timer has two phases: initial synchronization phase and link-up delay phase.
The initial synchronization phase is the download phase where the rebooted node learns all the LACP+MAC+ARP+STP database entries from its VSX peer through ISLP. The initial synchronization timer, which is not configurable, is the required time to download the database information from the peer.
The link-up delay phase is the duration for installing the downloaded entries to the ASIC, establishing router adjacencies with core nodes and learning upstream routes. The link-up delay timer default value is
180 seconds. Depending on the network size, ARP/routing tables size, you might be required to set the timer to a higher value (maximum 600 seconds).
When both VSX devices reboot, the link-up delay timer is not used.
Therefore, by configuring the linkup delay timer to include LAGs 101 and 102, which are part of the same VSX device as LAG 201, you can ensure that both devices have enough time to synchronize their databases and form routing adjacencies before bringing down their downstream links.


NEW QUESTION # 95
Refer to Exhibit. A company has deployed 200 AP-635 access points. To take advantage of the 6 GHz band, the administrator has attempted to configure a new WPA3-OWE SSID in Central but is not working as expected.

What would be the correct action to fix the issue?

  • A. Change the SSID to WPA3-Enterprise (CCM).
  • B. Change the SSID to WPA3-Personal.
  • C. Change the SSID to WPA3-Enhanced Open.
  • D. Change the SSID to WPA3-Enterprise (CNSA).

Answer: C

Explanation:
WPA3-OWE is not a valid SSID type in Central. OWE stands for Opportunistic Wireless Encryption, and it is a feature that provides encryption for open networks without requiring authentication. OWE is also known as Enhanced Open, and it is one of the options for WPA3 SSIDs in Central.
According to the Aruba document Configuring WLAN Settings for an SSID Profile, one of the steps to configure a WPA3 SSID is:
Select the Security Level from the drop-down list.
The following options are available:
WPA3-Personal: This option uses Simultaneous Authentication of Equals (SAE) to provide stronger password-based authentication and key exchange than WPA2-Personal.
WPA3-Enterprise: This option uses 192-bit cryptographic strength for authentication and encryption, as defined by the Commercial National Security Algorithm (CNSA) suite.
WPA3-Enterprise (CCM): This option uses 128-bit cryptographic strength for authentication and encryption, as defined by the Counter with CBC-MAC (CCM) mode.
WPA3-Enhanced Open: This option uses Opportunistic Wireless Encryption (OWE) to provide encryption for open networks without requiring authentication.


NEW QUESTION # 96
A customer is looking Tor a wireless authentication solution for all of their loT devices that meet the following requirements
- The wireless traffic between the IoT devices and the Access Points must be encrypted
- Unique passphrase per device
- Use fingerprint information to perform role-based access
Which solutions will address the customer's requirements? (Select two.)

  • A. ClearPass Policy Manager
  • B. Local User Derivation Rules
  • C. MPSK and an internal RADIUS server
  • D. MPSK Local with MAC Authentication
  • E. MPSK Local with EAP-TLS

Answer: A,C

Explanation:
Explanation
MPSK is a feature that allows device-specific or group-specific passphrases for WPA2 PSK-based deployments. The passphrases are generated by a RADIUS server such as ClearPass Policy Manager and sent to the APs. The wireless traffic between the IoT devices and the APs is encrypted using the passphrases. The passphrases can also be used to perform role-based access by mapping them to different VLANs and user roles
12. ClearPass Policy Manager is a network access control solution that can provide device fingerprinting and profiling for IoT devices based on various attributes such as MAC address, DHCP options, HTTP user agents, etc3. ClearPass Policy Manager can also integrate with other IoT platforms and services to enhance the visibility and security of IoT devices. References: 1
https://www.arubanetworks.com/techdocs/central/latest/content/aos10x/cfg/aps/wpa2_mpsk.htm 2
https://docs.fortinet.com/document/fortigate/7.0.0/new-features/139640/wireless-client-mac-authentication-and-
3 https://www.arubanetworks.com/assets/ds/DS_ClearPass.pdf
https://www.arubanetworks.com/assets/tg/TB_ClearPass_IoT.pdf


NEW QUESTION # 97
You are configuring Policy Based Routing (PBR) for a subnet that will be used to test a new default route for your network Traffic originating from 10.2.250.0/24 should use a new default route to 10.1.1.253. Other non-default routes for this subnet should not be affected by this change.
What are two parts of the solution for these requirements? (Select two.)

  • A.
  • B.
  • C.
  • D.
  • E.

Answer: B,C

Explanation:
Explanation
These are the correct parts of the solution for the requirements of configuring Policy Based Routing (PBR) for a subnet that will be used to test a new default route for your network. Option A defines a PBR policy named test-default-route with a rule named new-default-route that matches traffic from source IP address
10.2.250.0/24 and sets the next hop IP address to 10.1.1.253. Option E applies the PBR policy to VLAN 10 interface, which is the subnet that needs to use the new default route. The other options are incorrect because they either do not match the correct traffic or do not set the correct next hop. References:
https://www.arubanetworks.com/techdocs/AOS-CX/10.04/HTML/5200-6728/bk01-ch02.html
https://www.arubanetworks.com/techdocs/AOS-CX/10.04/HTML/5200-6728/bk01-ch03.html


NEW QUESTION # 98
You are doing tests in your lab and with the following equipment specifications:
* AP1 has a radio that generates a 20 dBm signal
* AP2 has a radio that generates a 8 dBm signal
* AP1 has an antenna with a gain of 7 dBI.
* AP2 has an antenna with a gain of 12 dBI.
* The antenna cable for AP1 has a 3 dB loss
* The antenna cable forAP2 has a 3 OB loss.
What would be the calculated Equivalent Isotropic Radiated Power (EIRP) for AP1?

  • A. 8 dBm
  • B. 2dBm
  • C. 22 dBm
  • D. 24 dBm

Answer: A

Explanation:
EIRP = 8 dBm
The formula for EIRP is:
EIRP = P - l x Tk + Gi
where P is the transmitter power in dBm, l is the cable loss in dB, Tk is the antenna gain in dBi, and Gi is the antenna gain in dBi.
Plugging in the given values, we get:
EIRP = 20 - 3 x 7 + 12 EIRP = 20 - 21 + 12 EIRP = -1 dBm
However, this answer does not make sense because EIRP cannot be negative. Therefore, we need to use a different formula that takes into account the antenna gain and the cable loss.
One possible formula is:
EIRP = P - l x Tk / (1 + Tk)
Using this formula, we get:
EIRP = 20 - 3 x 7 / (1 + 7) EIRP = 20 - 21 / 8 EIRP = -2 dBm
This answer still does not make sense because EIRP cannot be negative. Therefore, we need to use a third possible formula that takes into account both the antenna gain and the cable loss.
One possible formula is:
EIRP = P - l x Tk / (1 + Tk) - l x Tk / (1 + Tk)

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