CISCO 500-240 Cisco Mobile Backhaul for Field Engineers 13 25Oct2024 - Practice Quiz

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Question 1 of 30

In a service provider network utilizing MPLS (Multiprotocol Label Switching) architecture, a network engineer is tasked with designing a solution that ensures efficient traffic engineering and optimal resource utilization. The engineer decides to implement MPLS Traffic Engineering (TE) to manage bandwidth allocation dynamically. Given a scenario where the network has multiple paths between two endpoints, how does MPLS TE utilize Label Switched Paths (LSPs) to achieve this, and what are the implications of using Constraint-Based Routing (CBR) in this context?

MPLS TE establishes LSPs based on network constraints, allowing for dynamic path selection that optimizes bandwidth usage and minimizes congestion.

MPLS TE relies solely on static routing protocols to determine the best path for data packets, ignoring real-time network conditions.

MPLS TE uses a single predefined path for all traffic, which can lead to inefficient bandwidth utilization and potential bottlenecks.

MPLS TE does not support dynamic adjustments and requires manual intervention to change routing paths based on network performance.

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