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CCDE Network Design



This course teaches participants all information they need about Network Design. It is aimed at Network Engineers /Solution Architects responsible for building Networks that meet business objectives. The principles are Vendor Neutral and can be applied in any IP Network.

Course Objectives:

At the end of this course the participants will be able to: 

  • Understanding L2 technologies design
  • Discussing IGP, BGP, MPLS, QOS, IPv6, and multicast designs
  • Performing Practical Lab Scenarios

Targeted Audience:

  • System Engineers
  • Network managers
  • Individuals who are interested in learning Networking concepts

Course Outlines:

Unit 1: 

  • L2 Technologies Design
  • Spanning Tree Design
  • First Hop Redundancy Protocols Design
  • Layer 2 (looped) and Layer 3 (Routed) Access Design
  • PB , PBB, SPB, PBB-­?TE in the Service Provider Access Design
  • IGP Design
  • -­?OSPF

Unit 2: 

  • OSPF Theory, OSPF Design Best Practices, OSPF Fast Convergence, Scalability.
  • Multi-Area OSPF Design, Fast Reroute with OSPF
  • Overlay technologies and OSPF (GRE, mGRE, DMVPN, LISP)
  • OSPF in the Datacenter, Enterprise and Service Provider Networks
  • ISIS
  • IS-­?IS Theory, IS-­?IS Design Best Practices, IS-­?IS Fast Convergence, Scalability.
  • Multi-Level IS-­?IS Design, Fast Reroute with IS-­?IS
  • Overlay Technologies and IS-­?IS (GRE, mGRE, DMVPN, LISP).
  • IS-­?IS in the Datacenter, Enterprise and Service Provider Networks

Unit 3: 

  • BGP Design
  • BGP Theory, IBGP, EBGP, Principles of Hot and Cold Potato Routing.
  • IBGP Route Reflectors and EBGP Route Servers Design. (Optimal RR Placement)
  • BGP and IGP Interaction, BGP and MPLS Interaction

Unit 4: 

  • BGP Policies and their Global Effect
  • BGP Fast Re-­?route, BGP PIC ( Prefix Independent Convergence), BGP Control Plane Convergence
  • BGP Scalability

Unit 5:

  • MPLS Design
  • Tunnels, Pseudowires, Encapsulation, LSP, LSP Hierarchy, Unidirectional, and Bidirectional LSPs, Point to Point and Point to Multipoint LSPs.
  • Layer 2 MPLS VPNs
  • Layer 3 MPLS VPN
  • Inter-­?AS MPLS Layer 2 and Layer 3 VPNs

Unit 6: 

  • Carrier Supporting Carrier MPLS VPNS
  • Seamless and Unified MPLS Architecture
  • MPLS Transport Profile
  • MPLS Traffic Engineering

Unit 7:

  • QOS Design
  • QoS Theory, Intserv and Diffserv Architecture, Weakness, and Strengths of QoS
  • QoS on the Internet
  • Campus QOS Design
  • Service Provider QOS Design

Unit 8:

  • IPv6
  • IPv6 Drivers Business/Technical
  • IPv6 Theory review
  • IPv6 Migration Approaches (Compare in SPs vs Enterprise)

Unit 9:

  • Multicast
  • Multicast Theory, PIM SM, PIM SSM, and PIM BiDIR
  • Multicast Design in Enterprise Networks vs Service Provider Networks

Unit 10:

  • High Availability in Multicast Networks
  • CCDE PracEcal Lab Scenarios

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