Description

This advanced level course will allow you to master the concepts of distance vector, link state and path vector protocols. You will also learn the characteristics of RIP, OSPF and BGP routing protocols, the mechanisms of IP switching and the design of VPNs.

Who is this training for ?

For whom ?

Network engineer/administrator and technician.

Prerequisites

Training objectives

Master advanced routing and switching techniques

Configure a multi-area OSPF network with redistribution of static routes and RIP

Configure a Mutli-AS network with BGP routing, with OSPF in IGP

Implementation of MSTP and VSTP

Implementation of quality of service at levels 2 and 3 on the same IP network

Training program

• Routing infrastructure in JUNOS
  • Static, aggregated, generated routes.
  • Multiple instance routing tables, VRF.
  • Load sharing and filtering routing.
  • IP tunnels: GRE, IP-IP.
  • IPSec introduction.
  • Practical work Configuration of aggregated routes, summarized announcements, virtual routers, configuration of a GRE tunnel.
• Advanced OSPF and multi-area
  • Link state routing theory-OSPF: detailed review.
  • Reminders on basic single-area OSPF.
  • Multi-area OSPF, redistribution of external routes.
  • Configuration of advanced features (Stub Area, NSSA, Authentication).
  • Practical work Configuration of a multi-area OSPF network with redistribution of static routes and RIP.
• BGP path vector routing
  • BGP, Autonomous Systems and the Internet.
  • Basic BGP configuration, INGP and EBGP.
  • BGP attributes review, advanced features.
  • Advanced BGP: route reflectors and confederations.
  • Practical work Configuration of a multi-AS network with BGP routing, with OSPF in IGP and route reflectors.
• Multicast routing
  • Multicast at levels 2 and 3, the protocols and their merits.
  • The PIM protocol in Dense mode.
  • Intelligent Pim: Sparse and Sparse-dense modes.
  • Practical work Implementation of a multicast routing network in dense mode, then sparse.
• Advanced Ethernet Swinging
  • VLAN assignment by filtering.
  • Private VLAN.
  • Automated VLAN management: the MVRP protocol.
  • Tunneling at level 2 : Q-in-Q.
  • Practical work Use of VLAN/filtering, Private VLAn, management by MVRP, use of Q-in-Q.
• Advanced Spanning Tree Protocol
  • The weaknesses of the Spanning Tree (STP).
  • Rapid Spanning Tree (802.
  • 1D-2004).
  • Multiple Spanning Tree (802.
  • 1Q-2003) and the VSTP exception.
  • Protection against attacks on STP.
  • Practical work Implementation of MSTP and VSTP.
• Quality of service at levels 2 and 3
  • Guarantee the highest and most reliable throughput possible through an IP fabric.
  • QoS: classification, classes, queues, priorities, congestion, scheduling, BA rewriting.
  • 1p).
  • Layer 3 configuration (DSCP, TOS, IP precedence).
  • Practical work rnImplementation of quality of service at both levels on the same IP network.