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Palo Alto Networks SD-WAN Engineer SD-WAN-Engineer Exam Questions

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Question #1 (Topic: Demo Questions)

What is the default action for real-time media applications if link performance is poor?

A.

Drop the flow.

B.

Move flows.

C.

Apply Forward Error Correction (FEC).1

D.

Raise an alarm.

Correct Answer: B
Explanation:

Comprehensive and Detailed Explanation According to the Prisma SD-WAN Performance Policy Default Behavior documentation, the default action configured for applications (including real-time media) when a path experiences poor performance (violates the SLA thresholds for latency, jitter, or packet loss) is to Move Flows. The Prisma SD-WAN ION device continuously monitorsthe health of all available paths. If the active path for a media application degrades and fails to meet the specified SLA, the default policy dictates that the traffic should be steered (moved) to an alternate, compliant path that meets the performance criteria. While Forward Error Correction (FEC) is a powerful feature available in Prisma SD-WAN to mitigate packet loss for real-time applications, it is an optional action that must be explicitly enabled or configured within the performance policy rules. It is not the default action in the base system configuration; the primary default mechanism for handling performance issues is to leverage the multi-path fabric to switch to a better link. Reference: Prisma SD-WANAdministrator's Guide: Performance Policy Default Behavior.

Question #2 (Topic: Demo Questions)

A network operator receives a critical SITE_CONNECTIVITY_DOWN alarm for a branch site in the Prisma SD-WAN portal.

A.

 The device has lost power and rebooted.

B.

One of the two internet circuits at the site has gone down.

C.

All Secure Fabric Links (VPNs) to all remote peers are down, isolating the site from the overlay.

D.

The site has exceeded its licensed bandwidth capacity.

Correct Answer: C
Explanation:

Comprehensive and Detailed Explanation

The SITE_CONNECTIVITY_DOWN alarm is a high-severity alert indicating a total loss of overlay connectivity for a site.

    It does not trigger if just one circuit fails (Option B), provided that other circuits are still up and maintaining VPNs. A single link failure would typically trigger a " Link Down " or " VPN Down " alarm, but the Site connectivity would remain " Up " (degraded).

    It does not simply mean the device rebooted (Option A), although a reboot would cause it temporarily; the alarm specifically tracks the state of the VPN fabric.

The SITE_CONNECTIVITY_DOWN alarm specifically generates when all Secure Fabric Links (VPN tunnels) on the device are in the " Down " state. This means the branch is completely isolated from the rest of the SD-WAN network (Data Centers and other branches), even if the device itself might still be powered on and reachable via the controller (management plane). It signifies a " Blackout " of the data plane for that location.

Question #3 (Topic: Demo Questions)

When deploying a branch gateway, secure fabric VPN tunnels are automatically established between which two site types? (Choose two.)

A.

Branch to branch gateway (same domain)

B.

Branch gateway to data center

C.

Branch gateway to branch gateway

D.

Branch to branch gateway (different domain)

Correct Answer: B, C
Explanation:

In the Prisma SD-WAN (Instant-On Network) architecture, the " Secure Fabric " is a key feature that simplifies VPN orchestration through automation. When an ION device is deployed at a site and associated with a specific role, the Prisma SD-WAN Controller automatically manages the establishment of encrypted VPN tunnels without requiring manual IPsec configuration.

The most fundamental tunnel type is Branch gateway to data center (Option B). By default, the system follows a hub-and-spoke model where every branch ION device automatically attempts to build secure tunnels to all available Data Center clusters within its domain. This ensures that branch locations have immediate, redundant connectivity to centralized corporate resources and applications as soon as they are brought online.

Additionally, Prisma SD-WAN supports automated Branch gateway to branch gateway connectivity (Option C). Unlike traditional architectures that backhaul all traffic through a central hub, the Prisma SD-WAN fabric can dynamically establish " spoke-to-spoke " tunnels between branch gateways to facilitate direct communication. This is particularly useful for latency-sensitive applications like Voice over IP (VoIP) or video conferencing. While this can be configured as a " full mesh " where all sites build tunnels to all other sites, the controller intelligently manages these connections based on the defined site roles and domain configurations to optimize resource usage and performance. Options A and D are incorrect because the fabric orchestration logic is primarily focused on the functional roles of the gateways (Branch vs. Data Center) rather than " domains " in the context of tunnel initiation.

Question #4 (Topic: Demo Questions)

A multinational company is deploying Prisma SD-WAN across North America, Europe, and Asia. The data centers in the North America region have served all regions, but regional policies are now being enforced that mandate each of the regions to build their own data centers and branch sites to only connect to their respective regional data centers.

How can this regionalization be achieved so that new or existing branch sites only build tunnels to the regional DC IONs?

A.

Create a new cluster for each regional DC ION and move the sites from the existing cluster to the new cluster.

B.

Disable the auto-tunnel feature globally on the Prisma SD-WAN portal and manually create all necessary tunnels exclusively between IONs within their designated regions.

C.

Remove the circuit labels and apply new circuit labels for in-region circuits only.

D.

Assign WAN interfaces to distinct Virtual Routing and Forwarding (VRF) instances for each region on the DC IONs, ensuring that branches only connect to the WAN interfaces/VRFs designated for their region.

Correct Answer: A
Explanation:

Comprehensive and Detailed Explanation

To achieve strict regional isolation where branch sites only form VPN tunnels with Data Centers in their specific region (e.g., EU branches to EU DCs only), the correct architectural feature to utilize is VPN Clusters .

In Prisma SD-WAN (CloudGenix), a Cluster defines a logical security and topology boundary for the overlay network. By default, devices may be placed in a " Default " cluster where they attempt to form a mesh or hub-and-spoke topology with all other reachable devices in that context.

To enforce the new policy:

    Logical Partitioning: The administrator should create separate VPN Clusters for each region (e.g., " Cluster-NA " , " Cluster-EU " , " Cluster-Asia " ).

    Assignment: The Regional Data Center IONs and their corresponding Branch IONs must be moved into their respective clusters.

    Result: The Prisma SD-WAN controller dictates that devices can only establish Secure Fabric (VPN) tunnels with other devices within the same cluster . This effectively segments the global network, ensuring that an Asian branch never attempts to build a tunnel to a North American DC, satisfying the compliance requirement without complex access lists or manual tunnel configuration.

    Option B (Manual Tunnels) is administratively unscalable and negates the benefits of SD-WAN automation.

    Option C (Circuit Labels) is primarily for path selection and traffic steering, not for hard topology segmentation.

    Option D (VRFs) is used for local Layer 3 segmentation (routing isolation) within a device, not for controlling WAN overlay tunnel formation scope.

Question #5 (Topic: Demo Questions)

A network engineer is troubleshooting a user complaint regarding " slow application performance " for an internal web application. While viewing the Flow Browser in the Prisma SD-WAN portal, the engineer notices that the Server Response Time (SRT) is consistently high (over 500ms), while the Network Transfer Time (NTT) and Round Trip Time (RTT) are low (under 50ms).

What does this data indicate about the root cause of the issue?

A.

The issue is likely caused by congestion on the WAN circuit, requiring a QoS policy adjustment.

B.

The issue is likely on the application server itself (e.g., high CPU, slow database query), not the network.

C.

The issue is caused by a high packet loss rate on the internet path.

D.

The issue is due to a misconfigured DNS server at the branch.

Correct Answer: B
Explanation:

Comprehensive and Detailed Explanation

The Flow Browser and App Response Time metrics in Prisma SD-WAN are critical tools for isolating the fault domain—determining whether a problem lies in the " Network " or the " Application. "

    Network Transfer Time (NTT) / Round Trip Time (RTT): These metrics measure the time it takes for packets to traverse the network (WAN/LAN) and for acknowledgments to return. A low NTT (e.g., < 50ms) confirms that the network pipes (SD-WAN overlay, Underlay circuits) are healthy and transporting packets quickly.

    Server Response Time (SRT): This metric specifically measures the time between the server receiving a request and the server sending the first byte of the response. It essentially measures the " processing time " of the backend server.

In the scenario described, the network metrics (NTT/RTT) are excellent, effectively ruling out WAN congestion, packet loss, or latency (Option A and C). However, the Server Response Time (SRT) is very high (500ms). This signature is a definitive indicator that the network delivered the request instantly, but the application server took a long time to process it . This points the troubleshooting effort toward the server infrastructure (e.g., a slow SQL query, an overloaded web server, or lack of compute resources) rather than the SD-WAN environment.

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