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Juniper JN0-481 Exam Syllabus Topics:

TopicDetails
Topic 1
  • Data Center Multitenancy: Covers multi-tenant network management through routing zones, VRFs, virtual networks, connectivity templates, security policies, VMware integration, and Data Center Interconnect.
Topic 2
  • Blueprint Operations: Covers day-to-day blueprint management including making and reverting changes, querying, virtual networks, Time Voyager, anomaly detection, property sets, configlets, and configuration types.
Topic 3
  • Data Center Architectures (IP Fabrics, EVPN-VXLAN): Covers spine-leaf topology design, ECMP load balancing, and underlay
  • overlay routing, along with EVPN and VXLAN concepts including route types, bridge domains, VNI-to-VLAN mapping, and VTEP functions.
Topic 4
  • Juniper Apstra Architecture: Introduces core Apstra components including the server, device agents, and UI, along with administrative features such as RBAC, event logging, and syslog.

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Quiz JN0-481 - Efficient Latest Data Center, Specialist (JNCIS-DC) Braindumps Free

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Juniper Data Center, Specialist (JNCIS-DC) Sample Questions (Q14-Q19):

NEW QUESTION # 14
You are creating a new security policy using Juniper Apstra.

Referring to the exhibit, which application point should you select to allow or deny traffic to or from a particular VRF?

Answer: B

Explanation:
In Apstra 5.1, multitenancy is modeled using routing zones, which map directly to the network operating system concept of a VRF. A VRF is an isolated Layer 3 routing instance with its own routing table and forwarding context, and Apstra's routing zone is the intent-based abstraction used to define and manage that isolation consistently across the fabric. Therefore, if your goal is to allow or deny traffic to or from a particular VRF, you must select Routing Zone as the security policy application point.
This choice enables you to express policy at the tenant boundary (VRF boundary) rather than at a single segment boundary. In EVPN-VXLAN data center fabrics, a tenant VRF commonly contains multiple virtual networks (VXLAN segments) and their associated IRB gateways on the leaf switches. Applying policy at the routing-zone level allows Apstra to compile intent and deploy enforcement consistently where traffic enters or exits that VRF context-typically as ACL constructs rendered as Junos firewall filters on the appropriate interfaces (for example, IRB interfaces for east-west controls or border interfaces for north-south controls).
By contrast, selecting Virtual Network targets a single segment (not the whole VRF), and Internal/External Endpoint targets specific endpoints or endpoint groups rather than the VRF-wide policy boundary. Hence, Routing Zone is the correct application point when policy scope is the VRF.


NEW QUESTION # 15
Exhibit.

Referring to the exhibit, which role does Device A serve in an IP fabric?

Answer: C

Explanation:
Device A serves as a spine in an IP fabric. An IP fabric is a network architecture that uses a spine-leaf topology to provide high performance, scalability, and reliability for data center networks. A spine-leaf topology consists of two layers of devices: spine devices and leaf devices. Spine devices are the core devices that interconnect all the leaf devices using equal-cost multipath (ECMP) routing. Leaf devices are the edge devices that connect to the servers, storage, or other network devices. In the exhibit, Device A is connected to four leaf devices using multiple links, which indicates that it is a spine device. The other options are incorrect because:
A . leaf is wrong because a leaf device is an edge device that connects to the servers, storage, or other network devices. In the exhibit, Device A is not connected to any servers, storage, or other network devices, but only to four leaf devices, which indicates that it is not a leaf device.
C . super spine is wrong because a super spine device is a higher-level device that interconnects multiple spine devices in a large-scale IP fabric. A super spine device is typically used when the number of leaf devices exceeds the port density of a single spine device. In the exhibit, Device A is not connected to any other spine devices, but only to four leaf devices, which indicates that it is not a super spine device.
D . server is wrong because a server device is a compute or storage device that connects to a leaf device in an IP fabric. A server device is typically the end host that provides or consumes data in the network. In the exhibit, Device A is not connected to any leaf devices, but only to four leaf devices, which indicates that it is not a server device. Reference:
IP Fabric Underlay Network Design and Implementation
IP Fabric Overview
IP Fabric Architecture


NEW QUESTION # 16
You have accessed your deployed blueprint and see the banner shown in the exhibit.

Which two statements are correct in this scenario? (Choose two.)

Answer: A,B

Explanation:
In Apstra 5.1, the top-level blueprint banner uses tab indicators (colored badges) to summarize blueprint status across areas such as Staged, Uncommitted, Active, and Analytics. The presence of an Uncommitted indicator signifies that there are staged modifications that have not yet been committed and therefore are not part of the active, deployed intent. That directly corresponds to the statement that changes exist which are not active on the fabric.
At the same time, the banner shows an Active indicator in an alarm state, which reflects that the running fabric has issues requiring attention-commonly surfaced as anomalies (for example, configuration deviation, interface/link faults, protocol/session issues, or service-impacting conditions). In Apstra's operational model, these issues appear as anomalies that operators should investigate and remediate to restore compliance and health. Therefore, the statement that there are anomalies that must be addressed is also correct.
The remaining options are not implied by this banner alone. Device profile assignment and resource assignment are build-time tasks, but their absence is not what the Uncommitted/Active alert indicators are specifically communicating here. The banner is highlighting uncommitted intent changes and active anomalies that affect the deployed blueprint state and assurance posture.
Verified Juniper sources (URLs):
https://www.juniper.net/documentation/us/en/software/apstra5.1/apstra-user-guide/topics/concept/uncommitted.html
https://www.juniper.net/documentation/us/en/software/apstra5.0/apstra-user-guide/topics/topic-map/anomalies-service-active.html
https://cloudlabs.apstra.com/labguide/Cloudlabs/6.0.0/test-drive-guide/lab1-junos-5_blueprints_.html


NEW QUESTION # 17
You have created a blueprint and are in the process of assigning systems. You require the leaf3- sonic device in the blueprint but do not want it to actively participate in the routing of the IP fabric.
In the Juniper Apstra UI, which two modes satisfy this requirement? (Choose two.)

Answer: C,D

Explanation:
Drain mode keeps the device assigned to the blueprint but prevents it from forwarding or participating in routing, which satisfies the requirement.
Ready mode means the device is assigned and recognized in the blueprint but not yet deployed, so it does not actively participate in fabric routing.


NEW QUESTION # 18
An operator is working on a capacity-planning exercise. The operator needs to examine the pre-built time-series information regarding link utilization. In the Juniper Apstra UI, which top-level tab would the operator have to access to find this information?

Answer: C

Explanation:
In Apstra 5.1, capacity planning based on pre-built time-series telemetry (such as link utilization trends) is part of Intent-Based Analytics (IBA). IBA is where Apstra ingests streaming telemetry from fabric devices, stores it as time-series data, and presents it through built-in analytics views (dashboards/widgets) and probes. Because the question specifically calls out "pre-built time series information regarding link utilization," the correct UI location is the Analytics top-level tab within the blueprint.
The Active tab is primarily oriented to operational state and day-2 workflows (for example, viewing live state, queries, and device-level operational views). The Staged tab is where you modify intent (physical/virtual design, policies, catalog items) prior to committing and deploying. The Dashboard provides a high-level blueprint overview and navigation, but the drill-down and time-series analytics views that support trending and capacity analysis are accessed via Analytics.
In an EVPN-VXLAN fabric using Junos v24.4, link utilization time-series is particularly valuable because underlay congestion can degrade overlay performance (BGP convergence behavior, ECMP distribution effectiveness, and endpoint experience). Apstra's Analytics tab centralizes these metrics so operators can evaluate utilization baselines, identify sustained hot links, and support proactive actions (rebalancing, adding capacity, or adjusting design intent) without relying on ad-hoc per-device CLI polling.
Verified Juniper sources (URLs):
https://www.juniper.net/documentation/us/en/software/apstra5.1/apstra-custom-telemetry-collection-guide/topics/concept/apstra-telemetry-and-intent-based-analytics.html


NEW QUESTION # 19
......

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