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Examination Info.
 
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CISCO Training Course Details
 
 
MPLS v2.3 - Implementing Cisco MPLS
 
Duration:

Description

 

This design document is for the refresh of the Implementing Cisco MPLS (MPLS) v2.3 instructor-led training (ILT) course, which is used for the Multiprotocol Label Switching (MPLS) Cisco CCIP® certification tract. The course is five days long and uses standard ILT form. This update to the course reflects the most-recent developments in network design and technologies, using real-world scenarios to help reinforce the learning of key objectives.

Objectives

  • Describe the features of MPLS
  • Describe how MPLS labels are assigned and distributed
  • Configure and troubleshoot frame-mode MPLS on Cisco IOS platforms
  • Describe the MPLS peer-to-peer architecture and explain the routing and packet-forwarding model in this architecture
  • Configure, monitor, and troubleshoot VPN operations
  • Describe how the MPLS VPN model can be used to implement managed services and Internet access
  • Describe the various Internet access implementations that are available and the benefits and drawbacks of each model
  • Describe the tasks and commands that are necessary to implement MPLS TE

Prerequisites

The knowledge and skills that a learner must have before attending this course include the following:

  • Cisco CCNA® certification or the equivalent level of working knowledge and experience
  • Building Scalable Cisco Internetworks
  • Configuring BGP on Cisco Routers

Who Should Attend

The primary audience for this course is as follows:

  • The target audience for Implementing Cisco MPLS consists of network administrators and technicians—Cisco CCNP®, CCDP®, CCIE®, and CCIP routing and switching candidates—who are responsible for implementing and troubleshooting basic IP multicast-enabled networks within a single domain.

The secondary audience for this course is as follows:

  • The course is targeted toward pre-sales and post-sales technical engineers who are responsible for designing, implementing, and troubleshooting MPLS networks or solutions that are based on MPLS technology.
 
Course Outline
 
  • Module 1: MPLS Features
    • Lesson 1: Describing Basic MPLS Concepts
      • MPLS Overview
      • MPLS Terminology
      • MPLS Architecture Components
    • Lesson 2: Describing MPLS Labels and Label Stack
      • MPLS Labels
      • MPLS Label Imposition
      • MPLS Label Stack
    • Lesson 3: Identifying MPLS Applications
      • MPLS Services
      • MPLS IP Routing
      • MPLS VPNs
      • MPLS Traffic Engineering
      • MPLS Quality of Service
      • Any Transport over MPLS
      • Interactions Between MPLS services
  • Module 2: Label Assignment and Distribution
    • Lesson 1: Discovering LDP Neighbors
      • Label-Distributing Protocols
      • LDP Session Establishment
      • Discovering LDP Neighbors
      • Negotiating LDP Sessions
    • Lesson 2: Describing Typical Label Distribution in Frame-Mode MPLS
      • Propagating Labels Across a Network
      • Label Switched Paths
      • Propagating Labels by Using PHP
      • Impact of IP Aggregation on LSPs
      • Allocating Labels in a Frame-Mode MPLS Network
      • Distributing and Advertising Labels
      • Detecting Frame-Mode Loops
    • Lesson 3: Describing Convergence in Frame-Mode MPLS
      • MPLS Steady-State Operation
      • Link Failure State
      • Routing Protocol Convergence After a Link Failure
      • MPLS Convergence After a Link Failure
      • Link Recovery Actions
  • Module 3: Frame-Mode MPLS Implementation on Cisco IOS Platforms
    • Lesson 1: Using Cisco Express Forwarding Switching
      • Cisco IOS Platform Switching Mechanisms
      • Using Standard IP Switching
      • Cisco Express Forwarding Switching Architecture
      • Configuring IP Cisco Express Forwarding
      • Monitoring IP Cisco Express Forwarding
    • Lesson 2: Configuring Frame-Mode MPLS on Cisco IOS Platforms
      • MPLS Configuration Tasks
      • Configuring the MPLS ID on a Router
      • Configuring MPLS on a Frame-Mode Interface
      • Configuring a Label-Switching MTU
      • Configuring IP TTL Propagation
      • Configuring Conditional Label Distribution
    • Lesson 3: Monitoring Frame-Mode MPLS on Cisco IOS Platforms
      • Monitoring MPLS
      • Monitoring LDP
      • Monitoring Label Switching
      • Debugging MPLS and LDP
    • Lesson 4: Troubleshooting Frame-Mode MPLS on Cisco IOS Platforms
      • Common Frame-Mode MPLS Issues
      • Solving LDP Session Startup Issues
      • Solving Label Allocation Issues
      • Solving Label Distribution Issues
      • Solving Packet-Labeling Issues
      • Solving Intermittent MPLS Failures
      • Solving Packet Propagation Issues
  • Module 4: MPLS Virtual Private Network Technology
    • Lesson 1: Introducing Virtual Private Networks
      • Basic VPN Overview
      • VPN Implementation Models
      • Benefits and Drawbacks of VPNs
    • Lesson 2: Introducing MPLS VPN Architecture
      • MPLS VPN Architecture
      • Methods of Propagating Routing Information Across the P-Network
      • Route Distinguishers
      • Route Targets
    • Lesson 3: Introducing the MPLS VPN Routing Model
      • MPLS VPN Routing
      • Support for Internet Routing
      • Routing Tables on PE Routers
      • Identifying End-to-End Routing Update Flow
    • Lesson 4: Forwarding MPLS VPN Packets
      • End-to-End VPN Forwarding Mechanisms
      • VPN Penultimate Hop Popping
      • Propagating VPN Labels Between PE Routers
      • Effects of MPLS VPNs on Label Propagation
      • Effects of MPLS VPNs on Packet Forwarding
  • Module 5: MPLS VPN Implementation
    • Lesson 1: Using MPLS VPN Mechanisms of Cisco IOS Platforms
      • VRF Table
      • Need for Routing Protocol Contexts
      • VPN-Aware Routing Protocols
      • Using VRF Tables
      • Propagating BGP Routes—Outbound
      • Propagating BGP Routes—Inbound
      • Propagating Non-BGP Routes—Outbound
      • Propagating Non-BGP Routes—Inbound
    • Lesson 2: Configuring VRF Tables
      • VRF Configuration Tasks
      • Creating VRF Tables and Assigning RDs
      • Specifying Export and Import RTs
      • Using MPLS VPN IDs
      • Assigning an Interface to a VRF Table
      • Typical Configuration to Enable VRFs
    • Lesson 3: Configuring an MP-BGP Session Between PE Routers
      • Configuring BGP Address Families
      • Enabling BGP Neighbors
      • Configuring MP-BGP
      • Configuring MP-IBGP
      • Configuring MP-BGP Community Propagation
      • Disabling IPv4 Route Exchange
    • Lesson 4: Configuring Small-Scale Routing Protocols Between PE and CE Routers
      • Configuring PE-CE Routing Protocols
      • Selecting the VRF Routing Context for BGP
      • Configuring Per-VRF Static Routes
      • Configuring RIP PE-CE Routing
      • Configuring EIGRP PE-CE Routing
      • Configuring SOO for EIGRP PE-CE Loop Prevention
    • Lesson 5: Monitoring MPLS VPN Operations
      • Monitoring VRFs
      • Monitoring VRF Routing
      • Monitoring MP-BGP Sessions
      • Monitoring an MP-BGP VPNv4 Table
      • Monitoring Per-VRF Cisco Express Forwarding and LFIB Structures
      • Monitoring Labels Associated with VPNv4 Routes
      • Identifying Other MPLS VPN Monitoring Commands
    • Lesson 6: Configuring OSPF as the Routing Protocol Between PE and CE Routers
      • Enhanced OSPF Hierarchical Model
      • Propagating OSPF Customer Routes
      • Implementing MPLS VPNs as an OSPF Superbackbone
      • Configuring OSPF PE-CE Routing
      • Using the OSPF Down Bit
      • Optimizing Packet Forwarding Across the MPLS VPN Backbone
      • Using the OSPF Tag Field
      • Sham Link
      • Configuring a Sham Link
    • Lesson 7: Configuring BGP as the Routing Protocol Between PE and CE Routers
      • Configuring a Per-VRF BGP Routing Context
      • Reasons for Limiting the Number of Routes in a VRF
      • Limiting the Number of Prefixes Received from a BGP Neighbor
      • Limiting the Total Number of VRF Routes
      • Identifying AS-Override Issues
      • Identifying the Allow as Issue
      • Implementing SOO for Loop Prevention
    • Lesson 8: Troubleshooting MPLS VPNs
      • Identifying Preliminary Steps in MPLS VPN Troubleshooting
      • Verifying the Routing Information Flow
      • Validating CE-to-PE Routing Information Flow
      • Validating PE–to-PE Routing Information Flow
      • Validating PE-to-CE Routing Information Flow
      • Identifying the Issues When Verifying the Data Flow
      • Validating Cisco Express Forwarding Status
      • Validating the End-to-End LSP
      • Validating the LFIB Status
  • Module 6: Complex MPLS VPNs
    • Lesson 1: Introducing Overlapping VPNs
      • Participants in Overlapping VPNs
      • Typical Overlapping VPN Usages
      • Overlapping VPN Routing
      • Overlapping VPN Data Flow
      • Configuring Overlapping VPNs
    • Lesson 2: Introducing Central Services VPNs
      • Access Characteristics of a Central Services VPN
      • Routing Characteristics of a Central Services VPN
      • Identifying Central Services VPN Data Flow Model
      • Configuring a Central Services VPN
      • Integrating a Central Services VPN with a Simple VPN
      • Identifying the RD Requirements When Integrating Central Services and Simple VPNs
      • Identifying the RT Requirements When Integrating Central Services and Overlapping VPNs
    • Lesson 3: Using Advanced VRF Import and Export Features
      • Advanced VRF Features
      • Configuring Selective VRF Import
      • Configuring Selective VRF Export
    • Lesson 4: Introducing the Managed CE Routers Service
      • Requirements of Managed CE Routers
      • VRF and RD Requirements
      • Configuring Managed CE Routers
  • Module 7: Internet Access and MPLS VPNs
      Lesson 1: Combining Internet Access with MPLS VPNs
      • Customer Internet Connectivity Scenarios
      • Internet Design Models for Service Providers
      • Internet Access Through Global Routing
      • Internet Access as a Separate VPN
      • Internet Access Through Route Leaking
    • Lesson 2: Implementing Separate Internet Access and VPN Services
      • Classical Internet Access for a VPN Customer
      • Using Separate Subinterfaces
      • Accessing the Internet from Every Customer Site
      • Separate Internet Access Benefits and Limitations
    • Lesson 3: Implementing Internet Access as a Separate VPN
      • Internet Access as a Separate VPN
      • Implementing Redundant Internet Access
      • Implementing Classical Internet Access for a VPN Customer
      • Implementing Internet Access from Every Customer Site
      • Implementing Wholesale Internet Access
      • Running an Internet Backbone in a VPN
  • Module 8: MPLS Traffic Engineering Overview
    • Lesson 1: Introducing Traffic Engineering Concepts
      • Traffic Engineering Overview
      • Business Drivers for Traffic Engineering
      • Congestion Avoidance and Traffic Engineering
      • Traffic Engineering with a Layer 2 Overlay Model
      • Traffic Engineering with a Layer 3 Model
      • MPLS Traffic Engineering Model
    • Lesson 2: Understanding MPLS TE Components
      • Traffic Tunnel Concepts
      • Traffic Tunnel Characteristics
      • Traffic Tunnel Attributes
      • Network Links and Link Attributes
      • Constraint-Based Path Computation
      • Traffic Engineering Process
      • Role of RSVP in Path Setup and Trunk Admission Control
      • Forwarding Traffic to a Tunnel
    • Lesson 3: Configuring MPLS Traffic Engineering on Cisco IOS Platforms
      • MPLS TE Configuration Flowchart
      • Enabling Device-Level MPLS-TE Support
      • Configuring IGP for MPLS TE Support
      • Enabling Basic MPLS-TE on an Interface
      • Creating and Configuring a Traffic Tunnel
      • Mapping Traffic into Tunnels with Autoroute
    • Lesson 4: Monitoring Basic MPLS TE on Cisco IOS Platforms
      • Monitoring MPLS TE Tunnels
      • Monitoring MPLS TE
    •  
     
     
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