Network Training - Course Details

SPCORE-ICSPNGCN SPCORE - Implementing Cisco Service Provider Next-Generation Core Network Services v1.0

Network Training Course Description:
In this course, you will be introduced to the concepts of Multiprotocol Label Switching (MPLS) and its implementation. You will learn about the MPLS Traffic Engineering (MPLS TE) services built on the MPLS technology, and you'll learn to use the principles of quality of service (QoS) and QoS with MPLS to implement advanced features and functions. You will focus on the technology issues of MPLS, the best practices for implementing QoS from the service provider perspective, and how to configure those features and functions in an existing routed environment. Through hands-on labs, you will gain practical skills on deploying Cisco IOS/IOS XE and Cisco IOS XR features to operate and support service provider networks. This course helps you prepare for Exam 642-887 SPCORE, which is needed for CCNP Service Provider certification.
Network Training Course Duration:
5 DAYS
Network Training Course Target Audience:
Network administrators, engineers, and managers who want to implement MPLS and MPLS TE in the core portion of service provider environments and ensure QoS in the service provider backbone,Systems engineers,Individuals preparing for CCNP Service Provider certification
Network Training Course Prerequisite:
Intermediate to advanced knowledge of Cisco IOS, IOS XE, and Cisco IOS XR software configuration
Course Content:

  • 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

  • 2. 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

  • 3. 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

  • 4. 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

  • 5. 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)

  • 6. QoS Traffic Policing and Shaping

    • Implementing Traffic Policing
      • Class-Based Policing
      • Local Packet Transport Services
    • Implementing Traffic Shaping
      • Class-Based Shaping

  • 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 PolicingLab 9: Implement Traffic Shaping