Description

The Course Name: SPCORE – Implementing Cisco Service Provider Next-Generation Core Network Services

The Duration: 5 Days

The Overview:

The purpose of this course is to teach participants how to  prepare for the SPCORE exam required for the new CCNP-SP certification.

What You Will Learn:

  •      Features of MPLS and how MPLS labels are assigned and distributed
  •      Requirements for traffic engineering in modern networks that must attain optimal resource utilization
  •      QoS and the need to implement it
  •      How to classify and mark network traffic to implement an administrative policy requiring QoS
  •      Cisco QoS queuing mechanisms used to manage network congestion
  •      Traffic policing and shaping, including token bucket, dual token bucket, and dual-rate policing

The Course Index:

  1. MPLS
  •       Basics
    • Concepts
    • Labels
    • Applications
  •       Running Label Distribution Protocol (LDP)
    • LDP Process
    • Forming Label Switched Path
    • MPLS Convergence
    • Platform Switching Mechanisms
  •       Implementing MPLS in the Service Provider Core
    • Configure MPLS
    • Monitor MPLS
    • Troubleshoot MPLS
  1. MPLS TE
  •       Basics
    • Concepts
    • Components
    • Process
  •       Running MPLS TE
    • 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
  1. QoS in the Service Provider Network
  •       Understanding QoS
    • Models for Implementing QoS
  •       Implementing Cisco QoS and QoS Mechanisms
    • QoS Mechanisms
    • Implementing QoS
    • QoS in Service Provider Environment
  •       Implementing MPLS Support for QoS
    • MPLS QoS
    • MPLS DiffServ QoS Models
  1. QoS Classification and Marking
  •       Using the Modular QoS CLI (MQC)
    • 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
  1. QoS Congestion Management and Avoidance
  •       Managing Congestion
    • Queuing
    • Queuing Implementations
    • Configuring Class-Based Weighted Fair Queueing (CBWFQ)
    • Configuring Low Latency Queuing (LLQ)
  •       Implementing Congestion Avoidance
    • Congestion Avoidance
    • Random Early Detection (RED)
    • Configuring Weighted Random Early Detection (WRED)
  1. QoS Traffic Policing and Shaping
  •       Implementing Traffic Policing
    • Class-Based Policing
    • Local Packet Transport Services
  •       Implementing Traffic Shaping
    • Class-Based Shaping

Labs:

Lab 1: Implement MPLS in the Service Provider Core

Lab 2: Implement MPLS TE

Lab 3: Use QoS Mechanisms

Lab 4: Implement MPLS Support for QoS

Lab 5: Implement Classification and Marking

Lab 6: Implement Queuing

Lab 7: Implement Congestion Avoidance

Lab 8: Implement Traffic Policing

Lab 9: Implement Traffic Shaping