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
Training program
- Compare routing possibilities
- - 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.
- Distance vector routing
- - 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.
- Link-state routing
- n'as pas encore du programme
- BGP path vector routing
- - 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.
- Multicast routing
- - 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.
- Multicast routing
- - 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.
- QoS - Prioritization of flows
- - 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.
- Virtual Private Networks: VPN
- - 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.
- Le protocole IS-IS
- - Presentation.
- - Implementation and use.
- - Comparison with OSPF.
- - Practical work Example of use of the IS- protocol IS.
