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Description

An advanced level course that will allow you to master: the concepts of distance vector protocols, link state protocols, path vector protocols, the criteria for selecting a routing protocol, the characteristics of the protocols: RIP-1 , RIP-2, EIGRP, OSPF, BGP, IP switching mechanisms, virtual private network design, voice over IP and access security.

Who is this training for ?

For whom ?

Anyone whose duties require knowledge of configuring routing protocols on Cisco routers.

Prerequisites

Training objectives

  • Understand routing protocols
  • Implement an EIGRP IP network interconnection Create a secure OSPF interconnection
  • Create an IPSec VPN virtual private network
  • Implement an IP network interconnection using the BGP4 protocol
  • Training program

      • Topology: tree or mesh.
      • Prioritization: flat network or with backbone.
      • Services: prioritization or not.
      • Flows: synchronous or asynchronous.
      • Technical or strategic criteria: flow, delay, price or preference.
      • The RIP 1 and RIP 2 protocols.
      • The simplicity of RIP.
      • Loop processing.
      • Convergence.
      • Message processing.
      • Routing by subnetworks, security.
      • Multicast broadcasting, SNMP administration.
      • External route management, Next Hop.
      • Authentication.
      • The EIGRP protocol.
      • Multiple metrics.
      • Choosing the best path.
      • Loop processing, Split Horizon.
      • Poison Reverse.
      • Convergence.
      • DUAL broadcast update algorithm.
      • Protocols Hello, RTP.
      • External route management.
      • Feasable Distance Possible Successor.
      • Neighborhood.
      • Topology.
      • Configure EIGRP.
      • Implement load sharing.
      • Operator action on the choice of routes.
      • Globalization or not subnets.
      • Filter routing: access-lists.
      • Compare convergence between EIGRP and RIP.
      • Configure authentication.
      • Practical work RIP configuration commands on LAN, on WAN.
      • Validate the limits.
      • Implementation of a network interconnection.
      • Creation of problems and debug actions on RIP.
      • Implementation of an EIGRP IP network interconnection.
      • Implementation of a distribution /load sharing.
      • Basic concepts.
      • Database and topology.
      • Link states.
      • The OSPF protocol.
      • The role of the neighborhood, rapid convergence time.
      • Hierarchical network by a backbone and zones.
      • Secure broadcast of link states.
      • Event-based updates.
      • Update on network with or without broadcast.
      • Define OSPF zones with or without globalization.
      • Stub Area, Not So Stub Area, virtual link.
      • The consequences on broadcast.
      • Configure backbone routing, interzone, intrazone.
      • Interpret database information.
      • Customize link costs.
      • Traffic distribution.
      • Practical work rnImplementation of a secure OSPF interconnection.
      • Implementation of 'a hierarchical network and definition of OSPF zones, verification of broadcasts in the backbone and the impact of the notion of terminal zone (stub area and NSSA) with or without route synthesis.
      • Debug actions OSPF.
      • Definition.
      • Autonomous systems.
      • Topology, tables, loops, routes, political routing.
      • Path vectors.
      • Attributes.
      • BGP procedures.
      • Exchanges, updates, polls.
      • Processing political routing.
      • Practical work Implementation of an interconnection of IP networks using the BGP4 protocol.
      • Creation of a network of autonomous systems.
      • Verification of broadcasts in the backbone.
      • BGP debug actions.
      • Creation of a decision table.
      • Presentation.
      • Implementation of multicast processing on Cisco.
      • The IGMP protocol on LAN.
      • The Dense and Sparse mode PIM protocol between routers.
      • DVMRP, MOSPF protocols on the Backbone.
      • Cisco GMP between router and switch.
      • Presentation.
      • Implementation of multicast processing on Cisco.
      • The IGMP protocol on LAN.
      • The Dense and Sparse mode PIM protocol between routers.
      • DVMRP, MOSPF protocols on the Backbone.
      • Cisco GMP between router and switch.
      • Requirements definition.
      • DiffServ: flow marking: DSCP.
      • Solutions: traffic shaping, queuing.
      • Fair Queuing, Priority Queuing.
      • Custom Queuing.
      • Prioritization by DLCI Frame Relay.
      • Practical work Configuration of the different types of queues 'wait.
      • Validation of the impact on transfers.
      • MPLS VPN.
      • MPLS components.
      • VPN architecture.
      • Associate flow, label, QoS.
      • IPSec VPN.
      • Principle.
      • Selection of an algorithm.
      • Road and tunnel association.
      • Implementation principles .
      • Practical work IPSec tunnel creation.
      • Encryption mechanisms.
      • IPsec configuration.
      • Verification.
      • Debug actions.
      • Presentation.
      • Implementation and use.
      • Comparison with OSPF.
      • Practical work Example of use of the IS- protocol IS.
    • 1060
    • 35 h

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