Description

MPLS TE Training covers all the aspects of the MPLS Traffic Engineering capabilities and principals.

MPLS TE is the process of steering traffic across to the backbone to facilitate efficient use of available bandwidth between a pair of routers. MPLS TE Training also covers deploying MPLS Traffic Engineering designs. It focuses on the features of most of available routers as well as advanced technologies. It also covers network design, system configuration and troubleshooting.

MPLS Te training is a self-paced training provides attendees with in-depth knowledge and skills needed to implement MPLS Traffic Engineering: topics include introduction to Open Shortest Path First- Traffic Engineering (OSPF-TE), Resource Reservation Protocol (RSVP) and features such as Fast Re-route. Advanced topics include administrative groups, LSP primary/ Secondary path selection, and troubleshooting.

MPLS Traffic Engineering Training Course covers many important aspects of MPLS TE including:

  • MPLS Traffic Engineering Principals

  • Benefits and Restrictions

  • Why Use MPLS Traffic Engineering?

  • How MPLS Traffic Engineering Works

  • Traffic Engineering Techniques in MPLS

  • MPLS Traffic Engineering Mapping Traffic into Tunnels

  • MPLS Traffic Engineering Special Cases and Exceptions

  • MPLS Traffic Engineering Configuration case Studies

  • MPLS Traffic Engineering Related Features and Technologies

Upon completion of this course, you 'll learn:

  • What MPLS Traffic Engineering is and why it is used

  • MPLS Traffic Engineering benefits and restrictions

  • How MPLS Traffic Engineering works

  • MPLS peer-to-peer architecture, label definition and allocation, routing update distribution, and packet forwarding model

  • How MPLS implements traffic engineering and constraint-based path and routes

  • How to Configure, monitor, and troubleshoot MPLS Carrier including MPLS Traffic Engineering architecture

  • How to configure, monitor, and troubleshoot Layer 2 services over MPLS

  • Configuring RSVP-based Tunnels

  • Configuring IS-IS and OSPF for MPLS Traffic Enginering

  • Configuring an MPLS Traffic Engineering Tunnel

  • Configuring an MPLS Traffic Engineering Tunnel to be Used by an IGP

  • Example of an MPLS Traffic Engineering Tunnel Configuration

What You Will Learn!

  • MPLS-TE Fundamental
  • MPLS-TE Basic Configuration and Verification
  • MPLS-TE Explicit Tunnel [ OSPF ]
  • MPLS-TE OSPF Opaque LSA Type-10 and RSVP Concepts
  • MPLS-TE Explicit Tunnel [ IS-IS ]
  • MPLS-TE ISIS-TE Extension
  • MPLS-TE Multiple Explicit Tunnel [ ISIS ]
  • MPLS-TE Multiple Explicit Tunnel using PBR [ OSPF ]
  • MPLS-TE Dynamic Tunnel [ OSPF ]
  • MPLS-TE Semi-Dynamic Tunnel Using Exclude Address [ ISIS ]
  • MPLS-TE Semi-Dynamic Tunnel with Loose Next-Hop [ ISIS ]
  • MPLS-TE Auto Bandwidth
  • MPLS-TE Affinity-Attribute-Flag
  • MPLS-TE Administrative Weight
  • MPLS-TE Setup and Hold Priority
  • MPLS-TE Reoptimization
  • MPLS-TE Autoroute Announce and Metric
  • MPLS-TE Forwarding Adjacency
  • MPLS-TE Class Based Tunnel Selection [ CBTS ]
  • MPLS-TE AToM Tunnel Selection
  • MPLS-TE Cost Calculation
  • MPLS-TE Equal Cost Load Sharing
  • MPLS-TE Unequal Cost Load Sharing
  • MPLS-TE Adjusting the Cost Calculation
  • MPLS-TE RSVP , Labels , RSVP Messages
  • MPLS-TE RSVP Messages Details
  • MPLS-TE Link Manager
  • MPLS-TE Fast ReRoute [FRR] - Link Protection
  • MPLS-TE Fast ReRoute [FRR] - Node Protection
  • MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NNHOP]
  • MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [NHOP,NNHOP]
  • MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [SRLG]
  • MPLS-TE Fast ReRoute [FRR] - Multiple Backup Tunnel [Backup Bandwidth - Promotion]
  • MPLS-TE Path Protection
  • MPLS-TE and MPLS VPN - PE-to-PE Tunnel
  • MPLS-TE and MPLS VPN - VRF-to-PE Tunnel
  • MPLS-TE and MPLS VPN - PE-to-P Tunnel
  • MPLS-TE and MPLS VPN - PE-to-P - Targeted Tunnel
  • MPLS-TE Inter-Area TE Tunnel [ OSPF ]
  • MPLS-TE Inter-Area TE Tunnel [ IS-IS ]

Who Should Attend!

  • MPLS VPN and MPLS TE designers and architect, Pre- and post-sales technical support engineers, testers, and anyone else involved in validating and verifying advanced MPLS services (QoS, transport, security) in the Service Provider backbones.