[May 12, 2024] Updates Up to 365 days On Valid HPE7-A01 Braindumps [Q61-Q86]

[May 12, 2024] Updates Up to 365 days On Valid HPE7-A01 Braindumps

Best QualityHPE7-A01 Exam Questions HP Test To Gain Brilliante Result

HP HPE7-A01 (Aruba Certified Campus Access Professional) Exam is a certification exam designed for IT professionals who work in the field of network infrastructure. HPE7-A01 exam is specifically tailored to assess a candidate's knowledge and skills in designing, implementing, and managing enterprise-level wireless and wired networks using Aruba products and technologies. Passing HPE7-A01 exam validates the candidate's expertise in configuring Aruba controllers, access points, and switches, as well as their ability to troubleshoot network issues and implement security policies.

Aruba has become a popular choice for organizations that require reliable and secure wireless networking solutions. By obtaining the Aruba Certified Campus Access Professional certification, IT professionals can demonstrate their proficiency in managing Aruba WLANs, which can lead to new career opportunities and increased earning potential.

 

NEW QUESTION # 61
Match the terms below to their characteristics (Options may be used more than once or not at all.)

Answer:

Explanation:

Explanation
a) A device with IP address 10.1.3.7 in a network wants to send the traffic stream to a device with IP address
10.13.4.2 in the other network -> Unicast
b) One/more senders and one/more recipients participate in data transfer traffic -> Multicast c) Sent to all hosts on a remote network -> IP Directed Broadcast d) Sent to all NICs on the same network segment as the source NIC -> Broadcast References: 1 https://www.thestudygenius.com/unicast-broadcast-multicast/ The terms broadcast, IP directed broadcast, multicast, and unicast are different types of communication or data transmission over a network. They differ in how many devices are involved in the communication and how they address the messages. The following table summarizes the characteristics of each term1:
A screenshot of a computer Description automatically generated with medium confidence

NEW QUESTION # 62
You are helping an onsite network technician bring up an Aruba 9004 gateway with ZTP for a branch office The technician was to plug in any port for the ZTP process to start Thirty minutes after the gateway was plugged in new users started to complain they were no longer able to get to the internet. One user who reported the issue stated their IP address is 172.16 0.81 However, the branch office network is supposed to be on 10.231 81.0/24.
What should the technician do to alleviate the issue and get the ZTP process started correctly?

• A. Turn off the DHCP scope on the gateway, and set DNS correctly on the gateway to reach Aruba Activate
• B. Move the cable on the gateway from port G0/0V1 tc port G0 0.0
• C. Move the cable on the gateway to G0/0/1. and add the device's MAC and Serial number in Central
• D. Factory default and reboot the gateway to restart the process.

Answer: B

Explanation:
Aruba 9004 gateway supports ZTP on port G0/0/0 by default1. If the gateway is connected to a different port, such as G0/0/V1, it will not be able to communicate with Aruba Activate and Aruba Central, which are required for ZTP2. Moreover, port G0/0/V1 is configured as a DHCP server by default, which can cause IP address conflicts with the existing network3. Therefore, the technician should move the cable on the gateway to port G0/0/0, which will allow the gateway to obtain an IP address from the network DHCP server and start the ZTP process. The other options are not correct because they will not solve the issue or enable ZTP. For example, option D will not work because factory defaulting and rebooting the gateway will not change the port configuration or behavior3.

NEW QUESTION # 63
Which statement best describes QoS?

• A. Scoring traffic based on the quality of the contents
• B. Identifying specific traffic for special treatment
• C. Determining which traffic passes specified quality metrics
• D. Identifying the quality of the connection

Answer: B

Explanation:
Explanation
QoS stands for Quality of Service and is a mechanism that allows network devices to prioritize and differentiate traffic based on certain criteria, such as application type, source, destination, etc3. QoS involves identifying specific traffic for special treatment and applying policies and actions to improve its performance or meet certain service level agreements (SLAs)3. QoS can help network devices to manage congestion, delay, jitter, packet loss, bandwidth allocation, etc., for different types of traffic3. QoS can be implemented at various layers of the network stack and across different network domains. References: 3
https://www.cisco.com/c/en/us/td/docs/ios-xml/ios/qos/configuration/15-mt/qos-15-mt-book/qos-overview.html

NEW QUESTION # 64
A network engineer recently identified that a wired device connected to a CX Switch is misbehaving on the network To address this issue, a new ClearPass policy has been put in place to prevent this device from connecting to the network again.
Which steps need to be implemented to allow ClearPass to perform a CoA and change the access for this wired device? (Select two.)

• A. Bounce the switchport
• B. Use Dynamic Segmentation.
• C. Configure dynamic authorization on the switchport
• D. Configure dynamic authorization on the switch.
• E. Confirm that NTP is configured on the switch and ClearPass

Answer: D,E

Explanation:
Explanation
To allow ClearPass to perform a CoA and change the access for a wired device, the following steps need to be implemented:
* Confirm that NTP is configured on the switch and ClearPass. NTP is required to synchronize the time between the switch and ClearPass, which is essential for CoA messages to be processed correctly1.
* Configure dynamic authorization on the switch. Dynamic authorization is a feature that enables the switch to accept CoA messages from a RADIUS server and apply them to existing sessions2. Dynamic authorization can be enabled globally or per port on the switch2.
* Optionally, configure dynamic authorization on the switchport. This step is not required, but it can provide more granular control over which ports can accept CoA messages from a RADIUS server2.
Bouncing the switchport or using Dynamic Segmentation are not necessary steps for allowing ClearPass to perform a CoA and change the access for a wired device. References: 1
https://www.arubanetworks.com/techdocs/ClearPass/6.7/Aruba_DeployGd_HTML/Content/Aruba%20Controlle
2
https://www.arubanetworks.com/techdocs/AOS-CX/10.04/HTML/5200-6692/GUID-BD3E0A5F-FE4C-4B9B-B

NEW QUESTION # 65
With Aruba CX 6300. how do you configure ip address 10 10 10 1 for the interface in default state for interface 1/1/1?

• A. int 1/1/1. switching, ip address 10 10 10 1/24
• B. int 1/1/1. ip address 10.10.10.1/24
• C. int 1/1/1. routing, ip address 10.10.10 1/24
• D. int 1/1/1. no switching, ip address 10 10 10.1/24

Answer: D

Explanation:
To configure an IP address for an interface in default state for interface 1/1/1 on Aruba CX 6300 switch, you need to disable switching on the interface first with the command no switching. Then you can assign an IP address with the command ip address. The other options are incorrect because they either do not disable switching or use invalid keywords such as switching or routing. Reference: https://www.arubanetworks.com/techdocs/AOS-CX_10_08/UG/bk01-ch01.html https://www.arubanetworks.com/techdocs/AOS-CX_10_08/UG/bk01-ch02.html

NEW QUESTION # 66
Which Aruba AP mode is sending captured RF data to Aruba Central for waterfall plot?

• A. Hybrid Mode
• B. Spectrum Monitor
• C. Air Monitor
• D. Dual Mode

Answer: B

Explanation:
Explanation
Spectrum Monitor is an Aruba AP mode that is sending captured RF data to Aruba Central for waterfall plot.
Spectrum Monitor is a mode that allows an AP to scan all channels in both 2.4 GHz and 5 GHz bands and collect information about the RF environment, such as interference sources, noise floor, channel utilization, etc. The AP then sends this data to Aruba Central, which is a cloud-based network management platform that can display the data in various formats, including waterfall plot. Waterfall plot is a graphical representation of the RF spectrum over time, showing the frequency, amplitude, and duration of RF signals. The other options are incorrect because they are either not AP modes or not sending RF data to Aruba Central. References:
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/1-overview/spect
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/1-overview/water
https://www.arubanetworks.com/products/network-management-operations/aruba-central/

NEW QUESTION # 67
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-Enterprise (CNSA).
• D. Change the SSID to WPA3-Enhanced Open.

Answer: D

Explanation:
Explanation
The correct action to fix the issue is C. Change the SSID to WPA3-Enhanced Open.
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 Central1.
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.
The other options are incorrect because:
* A. WPA3-Enterprise (CNSA) is a valid SSID type, but it requires 802.1X authentication with a RADIUS server, which may not be suitable for the company's use case.
* B. WPA3-Personal is a valid SSID type, but it requires a passphrase to join the network, which may not be suitable for the company's use case.
* D. WPA3-Enterprise (CCM) is a valid SSID type, but it requires 802.1X authentication with a RADIUS server, which may not be suitable for the company's use case.

NEW QUESTION # 68
Your manufacturing client is deploying two hundred wireless IP cameras and fifty headless scanners in their warehouse. These new devices do not support 802.1X authentication.
How can HPE Aruba enhance security for these new IP cameras in this environment?

• A. Aruba ClearPass performs the 802.1X authentication and installs a certificate.
• B. Use MPSK Local to automatically provide unique pre-shared Keys for devices.
• C. MPSK Local will allow the cameras to share a rey and the scanners to share a different
• D. MPSK provides for each device in the WLAN to have its own unique pre-shared Key.

Answer: D

Explanation:
Explanation
The best option to enhance security for the new IP cameras and scanners in this environment is C. MPSK provides for each device in the WLAN to have its own unique pre-shared key.
MPSK stands for Multi Pre-Shared Key, and it is a feature that allows different devices to connect to the same SSID with different pre-shared keys. This improves the security and scalability of the network, as each device can have its own key and role without requiring 802.1X authentication or an external policy engine. MPSK can be configured either locally on the AP or centrally on Aruba Central12.
The other options are incorrect because:
A: MPSK Local is a feature that allows the user to configure 24 PSKs per SSID locally on the device.
These local PSKs would serve as an extension of the base MPSK functionality. However, MPSK Local is not suitable for this scenario, as it can only support up to 24 devices per SSID, while the client has
250 devices1.
B: Aruba ClearPass is a network access control solution that can perform 802.1X authentication and install certificates for devices. However, this option is not feasible for this scenario, as the new IP cameras and scanners do not support 802.1X authentication3.
D: MPSK Local will not allow the cameras to share a key and the scanners to share a different key.
MPSK Local will assign a different key to each device, regardless of their type. Moreover, MPSK Local can only support up to 24 devices per SSID, while the client has 250 devices1.

NEW QUESTION # 69
Which statements are true about VSX LAG? (Select two.)

• A. LAG traffic is passed over VSX ISL links only while upgrading firmware on the switch pair
• B. Outgoing traffic is switched to a port based on a hashing algorithm which may be either switch in the pair
• C. Up to 255 VSX lags can be configured on all 83xx and 84xx model switches.
• D. The total number of configured links may not exceed 8 for the pair or 4 per switch
• E. Outgoing traffic is preferentially switched to local members of the LAG.

Answer: B,E

Explanation:
Explanation
VSX LAG is a feature that allows a pair of Aruba CX switches to form a multichassis LAG with a downstream or upstream device. VSX LAG provides link redundancy and load balancing across the two switches. Outgoing traffic from the VSX pair to the peer device is switched to a port based on a hashing algorithm that considers various parameters such as source and destination MAC addresses, IP addresses, ports, etc. The hashing algorithm may select a port that belongs to either switch in the pair, depending on the traffic characteristics1. However, outgoing traffic is preferentially switched to local members of the LAG, meaning that each switch tries to use its own ports first before using the ISL link to send traffic to the other switch's ports2. This reduces the ISL utilization and improves performance. References: 1
https://www.arubanetworks.com/techdocs/AOS-CX/10.07/HTML/5200-7888/Content/VSX_cmds/int-lag-mul-c
2
https://www.arubanetworks.com/techdocs/AOS-CX/10.07/HTML/5200-7888/Content/Chp_Start/vsx-lag-10.11.

NEW QUESTION # 70
What are the requirements to ensure that WMM is working effectively'? (Select two)

• A. The Aruba AOS10 APs installed have to be converted to controlled mode
• B. All APs need to be from the AP-5xx series and AP-6xx series which are Wi-Fi CERTIFIED 6.
• C. The APs and the controller are Wi-Fi CERTIFIED for WMM which is enabled
• D. The Client must be Wi-Fi CERTIFIED for WMM and configured for WMM marking.
• E. The AP needs to be connected via a tagged VLAN to the wired port

Answer: C,D

Explanation:
Explanation
These are the correct requirements to ensure that WMM (Wi-Fi Multimedia) is working effectively. WMM is a standard that provides quality of service (QoS) for wireless networks by prioritizing traffic into four categories: voice, video, best effort, and background. To use WMM, both the APs and the controller must be Wi-Fi CERTIFIED for WMM, which means they have passed interoperability tests and comply with the standard. WMM must also be enabled on the APs and the controller, which is usually the default setting. The client device must also be Wi-Fi CERTIFIED for WMM and configured for WMM marking, which means it can tag its traffic with the appropriate priority level based on the application type. The other options are incorrect because they are either not related to WMM or not required for WMM to work. References:
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/wlan-qos/wmm.h
https://www.wi-fi.org/discover-wi-fi/wi-fi-certified-wmm

NEW QUESTION # 71
Your customer is interested in hearing more about how roles can help keep consistent policy enforcement in a distributed overlay fabric How would you explain this concept to them''

• A. Role-based policies enhance User Based Tunneling across the campus network and the policy traffic is protected with iPsec
• B. Group Based Policy ID is applied on ingress VTEP after device authentication and policy is enforced on egress VTEP
• C. Role-based policies are tied to IP addresses which have an advantage over IP-based policies and role names are sent between VTEPs
• D. Group Based Policy ID is applied on egress VTEP after device authentication and policy is enforced on ingress VTEP

Answer: B

Explanation:
Explanation
This is the correct explanation of how roles can help keep consistent policy enforcement in a distributed overlay fabric. Roles are used to assign group based policy IDs (GBPs) to devices after they authenticate with ClearPass or a local database. GBPs are then used to tag the traffic from the devices and send them to the ingress VTEP, which applies the GBP on the VXLAN header. The egress VTEP then enforces the policy based on the GBP and the destination device. The other options are incorrect because they either do not describe the correct sequence of events or do not use the correct terms. References:
https://www.arubanetworks.com/techdocs/AOS-CX/10.04/HTML/5200-6728/bk01-ch03.html
https://www.arubanetworks.com/techdocs/AOS-CX/10.04/HTML/5200-6728/bk01-ch05.html

NEW QUESTION # 72
Describe the difference between Class of Service (CoS) and Differentiated Services Code Point (DSCP).

• A. CoS has much finer granularity than DSCP
• B. They are similar and can be used interchangeably.
• C. CoS is only contained in VLAN Tag fields DSCP is in the IP Header and preserved throughout the IP packet flow
• D. CoS is only used to determine CLASS of traffic DSCP is only used to differentiate between different Classes.

Answer: C

Explanation:
Explanation
CoS and DSCP are both methods of marking packets for quality of service (QoS) purposes. QoS is a mechanism that allows network devices to prioritize and differentiate traffic based on certain criteria, such as application type, source, destination, etc. CoS stands for Class of Service and is a 3-bit field in the 802.1Q VLAN tag header. CoS can only be used on Ethernet frames that have a VLAN tag, and it can only be preserved within a single VLAN domain. DSCP stands for Differentiated Services Code Point and is a 6-bit field in the IP header. DSCP can be used on any IP packet, regardless of the underlying layer 2 technology, and it can be preserved throughout the IP packet flow, unless it is modified by intermediate devices.
References:
https://www.cisco.com/c/en/us/td/docs/ios-xml/ios/qos/configuration/15-mt/qos-15-mt-book/qos-overview.html
https://www.cisco.com/c/en/us/support/docs/lan-switching/8021q/17056-741-4.html
https://www.cisco.com/c/en/us/support/docs/quality-of-service-qos/qos-packet-marking/10103-dscpvalues.html

NEW QUESTION # 73
List the WPA 4-Way Handshake functions in the correct order.

Answer:

Explanation:

* Proves knowledge of the PMK
* Exchanges messages for generating PTK
* Distributes an encrypted GTK to the client
* Sets first initialization vector (IV)

NEW QUESTION # 74
Match the topics of an AOS10 Tunneled mode setup between an AP and a Gateway. (Options may be used more than once or not at all.)

Answer:

Explanation:

NEW QUESTION # 75
Which statement best describes QoS?

• A. Identifying specific traffic for special treatment
• B. Determining which traffic passes specified quality metrics
• C. Scoring traffic based on the quality of the contents
• D. Identifying the quality of the connection

Answer: B

Explanation:
QoS stands for Quality of Service and is a mechanism that allows network devices to prioritize and differentiate traffic based on certain criteria, such as application type, source, destination, etc3. QoS involves identifying specific traffic for special treatment and applying policies and actions to improve its performance or meet certain service level agreements (SLAs)3. QoS can help network devices to manage congestion, delay, jitter, packet loss, bandwidth allocation, etc., for different types of traffic3. QoS can be implemented at various layers of the network stack and across different network domains. Reference: 3 https://www.cisco.com/c/en/us/td/docs/ios-xml/ios/qos/configuration/15-mt/qos-15-mt-book/qos-overview.html

NEW QUESTION # 76
How is Multicast Transmission Optimization implemented in an HPE Aruba wireless network?

• A. "The optimal rate for sending multicast frames is based on the highest broadcast rate across all associated clients
• B. The optimal rate for sending multicast frames is based on the lowest unicast rate across all associated clients.
• C. When this option is enabled the minimum default rate for multicast traffic is set to 12 Mbps for 5 GHz
• D. The optimal rate for sending multicast frames is based on the lowest broadcast rate across all associated clients.

Answer: A

Explanation:
Explanation
This is the correct definition of Multicast Transmission Optimization in an HPE Aruba wireless network.
Multicast Transmission Optimization is a feature that improves the performance and reliability of multicast traffic by dynamically adjusting the transmission rate based on the highest broadcast rate across all associated clients. This ensures that multicast frames are sent at the optimal rate for each client and reduces retransmissions and packet loss. The other options are incorrect because they either describe different features or use incorrect terms. References:
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/multicast/multica
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/multicast/multica

NEW QUESTION # 77
On AOS10 Gateways, which device persona is only available when configuring a Gateway-only group'?

• A. Branch
• B. Mobility
• C. VPN Concentrator
• D. Edge

Answer: C

Explanation:
Explanation
VPN Concentrator is the device persona that is only available when configuring a Gateway-only group on AOS10 Gateways. A device persona defines the role and functionality of a Gateway in a network. A Gateway-only group is a group that contains only Gateways and no APs. A VPN Concentrator persona enables a Gateway to terminate VPN tunnels from remote APs or clients and provide secure access to corporate resources. The other options are incorrect because they are either not device personas or not exclusive to Gateway-only groups. References:
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/gateways/gatewa
https://www.arubanetworks.com/techdocs/ArubaOS_86_Web_Help/Content/arubaos-solutions/gateways/vpn-co

NEW QUESTION # 78
What is a primary benefit of BSS coloring?

• A. BSS color tags improve security by identifying rogue APS and tagging them as threats.
• B. BSS color tags are applied on the wireless controllers and can reduce the threshold for interference_
• C. BSS color tags are applied to WI-Fi channels and can reduce the threshold tor interference
• D. BSS color tags improve performance by allowing APS on the same channel to be farther apart

Answer: C

Explanation:
Explanation
The primary benefit of BSS coloring is D. BSS color tags are applied to Wi-Fi channels and can reduce the threshold for interference.
BSS coloring is a mechanism that allows Wi-Fi 6 devices to mark each frame with a color code that identifies the BSS (Basic Service Set) it belongs to. This helps differentiate between frames from different BSSs that share the same channel and avoid unnecessary collisions and backoffs. BSS coloring also introduces an adaptive threshold for interference, which means that Wi-Fi 6 devices can adjust the signal strength value that determines whether a channel is busy or not based on the current network environment. This allows for more efficient use of spectrum and higher throughput in dense scenarios12.

NEW QUESTION # 79
your customer has asked you to assign a switch management role for a new user The customer requires the user role to View switch configuration information and have access to the PUT and POST meth0ds for REST API.
Which default AOS-CX user role meets these requirements?

• A. sysops
• B. administrators
• C. helpdesk
• D. auditors

Answer: A

Explanation:
Explanation
The correct answer is C. sysops.
The sysops user role is a predefined role that allows users to view switch configuration information and have access to the PUT and POST methods for REST API. The sysops user role can also use the PATCH and DELETE methods for REST API, but not for all resources. The sysops user role is suitable for users who need to perform system operations on the switch, such as backup, restore, upgrade, or reboot.
According to the AOS-CX REST API Reference basics1, one of the predefined user roles is:
sysops: Users with this role can view switch configuration information and have access to the PUT and POST methods for REST API. They can also use the PATCH and DELETE methods for REST API, but not for all resources. Users with this role can perform system operations on the switch, such as backup, restore, upgrade, or reboot.
The other options are incorrect because:
A: administrators: Users with this role have full access to all switch configuration information and all REST API methods. This role is more than what the customer requires.
B: auditors: Users with this role can only view switch configuration information and have access to the GET method for REST API. They cannot use the PUT and POST methods for REST API.
D: helpdesk: Users with this role can view switch configuration information and have access to the GET method for REST API. They can also use the PATCH method for REST API, but only for a limited set of resources. They cannot use the PUT and POST methods for REST API.

NEW QUESTION # 80
Your Aruba CX 6300 VSF stack has OSPF adjacency over SVI 10 with LAG 1 to a neighboring device The following configuration was created on the switch:

• A.
• B.
• C.
• D.

Answer: B

Explanation:
Explanation
The correct configuration for OSPF adjacency over SVI 10 with LAG 1 to a neighboring device is shown in Option C. The configuration includes the following steps:
* Create a VLAN 10 and assign it a name and an IP address.
* Create a LAG 1 and assign it a name and a mode of dynamic or static.
* Add member ports to LAG 1 and enable the LAG interface.
* Assign VLAN 10 as the untagged VLAN for LAG 1.
* Enable OSPF on the switch and assign it a router ID.
* Create an OSPF area 0 and add SVI 10 as an interface in that area.
Option A is incorrect because it does not enable OSPF on the switch or create an OSPF area. Option B is incorrect because it assigns VLAN 10 as the tagged VLAN for LAG 1, which is not compatible with SVI 10.
Option D is incorrect because it does not add member ports to LAG 1 or enable the LAG interface.
References:
https://techhub.hpe.com/eginfolib/Aruba/OS-CX_10.04/5200-6692/GUID-BD3E0A5F-FE4C-4B9B-BE1D-FE7D
https://techhub.hpe.com/eginfolib/Aruba/OS-CX_10.04/5200-6692/GUID-BD3E0A5F-FE4C-4B9B-BE1D-FE7D

NEW QUESTION # 81
List the WPA 4-Way Handshake functions in the correct order.

Answer:

Explanation:

1 - Proves knowledge of the PMK
2 - Exchanges messages for generating PTK
3 - Distributes an encrypted GTK to the client
4 - Sets first initialization vector (IV)

NEW QUESTION # 82
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:
Two parts of the solution for these requirements are Option C and Option E.
Option C is a part of the solution because it defines a policy-based routing action list named route_test, which specifies the next hop IP address as 10.1.1.253 for the matching traffic. This is the new default route that the user wants to use for the subnet 10.2.250.0/24. The interface null parameter indicates that the traffic will be routed to the next hop without using a specific interface1.
Option E is a part of the solution because it applies the policy-based routing action list route_test to the VLAN interface 250, which has an IP address of 10.2.250.1/24. This is the subnet that the user wants to test the new default route for. The apply policy command enables policy-based routing on the interface and associates it with the action list2.
Option A is not a part of the solution because it defines a policy-based routing action list named route_test, but does not specify the next hop IP address as 10.1.1.253, which is the new default route that the user wants to use. Instead, it specifies a next hop IP address of 10.1.1.254, which is different from the requirement.
Option B is not a part of the solution because it defines a policy-based routing action list named route_test, but does not specify any next hop IP address at all, which is necessary for policy-based routing to work. Instead, it specifies an interface null parameter without any IP address, which is invalid.
Option D is not a part of the solution because it applies the policy-based routing action list route_test to the VLAN interface 200, which has an IP address of 10.2.200.1/24. This is not the subnet that the user wants to test the new default route for, but a different subnet that should not be affected by this change.

NEW QUESTION # 83
Match the terms below to their characteristics (Options may be used more than once or not at all.)

Answer:

Explanation:

Explanation
a) A device with IP address 10.1.3.7 in a network wants to send the traffic stream to a device with IP address
10.13.4.2 in the other network -> Unicast
b) One/more senders and one/more recipients participate in data transfer traffic -> Multicast c) Sent to all hosts on a remote network -> IP Directed Broadcast d) Sent to all NICs on the same network segment as the source NIC -> Broadcast References: 1 https://www.thestudygenius.com/unicast-broadcast-multicast/ The terms broadcast, IP directed broadcast, multicast, and unicast are different types of communication or data transmission over a network. They differ in how many devices are involved in the communication and how they address the messages. The following table summarizes the characteristics of each term1:
A screenshot of a computer Description automatically generated with medium confidence

NEW QUESTION # 84
What does the 802.3bz standard describe?

• A. 60 W and 90W PoE
• B. 2.5Gb and 5Gb Ethernet ports
• C. 60 GHz P2P Wi-Fi
• D. AP directed roaming between APs

Answer: B

Explanation:
802.3bz is a standard for Ethernet over twisted pair at speeds of 2.5 and 5 Gbit/s. These use the same cabling as the ubiquitous Gigabit Ethernet, yet offer higher speeds. The resulting standards are named 2.5GBASE-T and 5GBASE-T.
Option A: 2.5Gb and 5Gb Ethernet ports
This is because option A shows how to identify the speed of an Ethernet port based on its name and the standard it supports. A port that supports 2.5GBASE-T or 5GBASE-T is a multi-gigabit port that can operate at speeds of up to 2.5 Gbit/s or 5 Gbit/s over twisted pair cables23.
Therefore, option A is correct.
1: https://en.wikipedia.org/wiki/2.5GBASE-T_and_5GBASE-T 2: https://kb.netgear.com/000049004/What-is-Multi-Gigabit-Ethernet-and-how-can-I-benefit-from-using-NETGEAR-Multi-Gigabit-Ethernet-Switches-in-my-network 3: https://arstechnica.com/gadgets/2016/09/5gbps-ethernet-standard-details-8023bz/

NEW QUESTION # 85
Match the terms below to their characteristics (Options may be used more than once or not at all.)

Answer:

Explanation:

Explanation
a) A device with IP address 10.1.3.7 in a network wants to send the traffic stream to a device with IP address
10.13.4.2 in the other network -> Unicast
b) One/more senders and one/more recipients participate in data transfer traffic -> Multicast c) Sent to all hosts on a remote network -> IP Directed Broadcast d) Sent to all NICs on the same network segment as the source NIC -> Broadcast References: 1 https://www.thestudygenius.com/unicast-broadcast-multicast/ The terms broadcast, IP directed broadcast, multicast, and unicast are different types of communication or data transmission over a network. They differ in how many devices are involved in the communication and how they address the messages. The following table summarizes the characteristics of each term1:
A screenshot of a computer Description automatically generated with medium confidence

NEW QUESTION # 86
......

HP HPE7-A01 exam is an important certification for IT professionals who want to demonstrate their expertise in wireless networking. It is recognized globally and is highly valued by employers. Aruba Certified Campus Access Professional Exam certification is also a prerequisite for higher-level certifications in Aruba networking, such as the Aruba Certified Mobility Professional (ACMP) and the Aruba Certified Mobility Expert (ACMX). By passing the HPE7-A01 exam, IT professionals can enhance their career prospects and improve their earning potential.

 

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