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Implementing Cisco Service Provider Next-Generation Core Network Services (SPCORE)

Course Description Schedule Course Outline

Detailed Course Outline

1: Multiprotocol Label Switching

Learn the features of MPLS, how to configure them, and how MPLS labels are assigned and distributed.

  • Introducing MPLS
  • Basic MPLS Concepts
  • MPLS Labels
  • MPLS Applications
  • Running Label Distribution Protocol
  • LDP Process
  • Forming Label Switched Path
  • MPLS Convergence
  • Platform Switching Mechanisms
  • Implementing MPLS in the Service Provider Core
  • Configure MPLS
  • Monitor MPLS
  • Troubleshoot MPLS
  • LAB: Implement MPLS in the Service Provider Core
2: MPLS Traffic Engineering

Learn how to assess requirements for traffic engineering in modern service provider networks that must attain optimal resource utilization.

  • Introducing MPLS Traffic Engineering Components
  • MPLS TE Concepts
  • MPLS TE Components
  • MPLS TE Process
  • Running MPLS Traffic Engineering
  • Constraint-Based Path Computation
  • Path Setup and Maintenance
  • Assigning Traffic to Traffic Tunnels BGP Confederations
  • Implementing MPLS TE
  • MPLS TE Configuration
  • MPLS TE Path Selection MPLS TE Process
  • Protecting MPLS TE Traffic
  • Link and Node Protection
  • MPLS TE Bandwidth Control
  • LAB: Implementing MPLS TE

3: QoS in the Service Provider Network

This provides an understanding of the concept of QoS and explains the need to implement QoS.

  • Understanding QoS
  • Understanding QoS
  • Models for Implementing QoS
  • Implementing Cisco QoS and QoS Mechanisms
  • QoS Mechanisms
  • Implementing QoS
  • QoS in Service Provider Environment
  • LAB: Use QoS Mechanisms
  • Implementing MPLS Support for QoS
  • MPLS QoS
  • MPLS DiffServ QoS Models
  • LAB: Implement MPLS Support for QoS

4: QoS Classification and Marking

This describes how to successfully classify and mark network traffic to implement a policy according to QoS requirements.

  • Understanding Classification and Marking
  • Classification and Marking
  • Using the Modular QoS CLI
  • Using MQC for Classification
  • Using MQC for Class-Based Marking
  • Implementing Advanced QoS Techniques
  • Network-Based Application Recognition
  • QoS Tunneling Techniques
  • QoS Policy Propagation via BGP
  • Hierarchical QoS
  • LAB: Implement Classification and Marking
5: QoS Congestion Management and Avoidance

This describes different Cisco QoS queuing mechanisms used to manage network congestion and describes random early detection used to avoid congestion.

  • Managing Congestion
  • Introducing Queuing
  • Understanding Queuing Implementations
  • Configuring CBWFQ
  • Configuring LLQ
  • LAB: Implement Queuing
  • Implementing Congestion Avoidance
  • Introducing Congestion Avoidance
  • Introducing RED
  • Configuring WRED
  • LAB: Implement Congestion Avoidance
6: QoS Traffic Policing and Shaping

This describes the concept of traffic policing and shaping, including token bucket, dual token bucket, and dual-rate policing.

  • Understanding Traffic Policing and Shaping
  • Traffic Policing and Shaping
  • Implementing Traffic Policing
  • Class-Based Policing
  • Local Packet Transport Services
  • LAB: Implement Traffic Policing
  • Implementing Traffic Shaping
  • Class-Based Shaping
  • LAB: Implement Traffic Shaping

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