Description

Target Audience

Prerequisites

• CCNA certification or familiarity with internetworking technologies
• The ability to perform basic configuration of Cisco routers Knowledge of IP, including the ability to:
  • Perform IP subnetting on non-octal boundaries
  • Configure IP standard and extended access lists, distance vector routing protocol operation and configuration, and serial interface configuration
  • Interpret a Cisco routing table
• ICND1 and ICND2 or CCNA Boot Camp v2

Certifications

• CCDP - Cisco Certified Design Professional
• CCNP - Cisco Certified Network Professional
• CCIP - Cisco Certified Internetwork Professional
• Cisco Routing and Switching Solutions Specialist

Objectives

• Converged network requirements of various network and networked applications within the Cisco network architectures
• Advanced IP address configuration techniques to optimize your network
• Implementing and verifying EIGRP operations
• Building a scalable multi-area network with OSPF
• Configuring integrated IS-IS in a single area
• Manipulating routing and packet flow
• Implementing and verifying BGP for enterprise ISP connectivity
• Implementing and verifying multicast forwarding using PIM and related protocols
• Network reconfiguration to adapt to new technologies, including IPv6
• How IPv6 functions in order to satisfy the increasingly complex requirements of hierarchical addressing
• IPv6 routing protocols

Outline

• 1. Network Requirements

• 2. Configuring EIGRP
  • Introducing EIGRP
  • Implementing and Verifying EIGRP
  • Configuring Advanced EIGRP Options
  • Configuring EIGRP Authentication
  • Using EIGRP in an Enterprise Network

• 3. Configuring OSPF
  • Introducing the OSPF Protocol
  • OSPF Packet Types
  • Configuring OSPF Routing
  • OSPF Network Types
  • Link State Advertisements
  • Configuring OSPF Route Summarization
  • Configuring OSPF Special Area Types
  • Configuring OSPF Authentication

• 4. The IS-IS Protocol
  • Introducing IS-IS and Integrated IS-IS Routing
  • IS-IS Routing Operation
  • Configuring Basic Integrated IS-IS

• 5. Manipulating Routing Updates
  • Operating a Network Using Multiple IP Routing Protocols
  • Configuring and Verifying Route Redistribution
  • Controlling Routing Update Traffic
  • Implementing Advanced IOS Features: Configuring DHCP

• 6. Configuring Basic BGP
  • Explaining BGP Concepts and Terminology
  • Explaining EBGP and IBGP
  • Configuring Basic BGP Operations
  • Selecting a BGP Path
  • Using Route Maps to Manipulate Basic BGP Paths

• 7. Implementing IP Multicast
  • Explaining Multicast
  • IGMP and Layer 2 Issues
  • Explaining Multicast Routing Protocols
  • Multicast Configuration and Verification

• 8: Implementing IPv6
  • Introducing IPv6
  • Defining IPv6 Addressing
  • Implementing Dynamic IPv6 Addresses
  • Using IPv6 with OSPF and Other Routing Protocols
  • Using IPv6 with IPv4

Labs

• Lab 2-0: Basic Connectivity
  • Configure routers and verify connectivity of the network.
• Lab 2-1: Configuring and Tuning EIGRP
  • Configure EIGRP and provide Core scalability by limiting queries, using EIGRP route summarization, and configuring EIGRP stub routers. Advertise a default route to EIGRP stub routers.
• Lab 3-0: Configuring and Examining OSPF in a Single Area
  • Configure single-area OSPF and manipulate the OSPF router ID using loopback interfaces and the router-id command. Explore OSPF packet types and the DR and BDR election process.
• Lab 3-1: Configuring OSPF for Multiple Areas and Frame Relay NBMA
  • Configure multi-area OSPF and OSPF in NBMA mode over Frame Relay.
• Lab 3-2: Configuring OSPF for Multiple Areas and Frame Relay P2MP and P2P
  • Configure OSPF over Frame Relay using the Point-to-Multipoint OSPF network routing table type. Also configure OSPF over Frame Relay the using Point-to-Point OSPF network type.
• Lab 3-4: OSPF Tuning
  • Understand the OSPF link-state database structure and the tools available to investigate the link-state database. Limit the routing table size, then explore the effect of using route summarization and the effect of using the various types of OSPF stub areas.
• Lab 4-1: Configuring Integrated IS-IS in Multiple Areas
  • Configure multi-area integrated IS-IS and IS-IS route summarization. Learn to optimize IS-IS interfaces and IS types.
• Lab 5-1: Configuring Basic Redistribution
  • Configure basic route redistribution between OSPF and RIPv2. Change Administrative Distance on routing updates and inject a default route into the RIPv2 domain.
• Lab 5-2: Tuning Basic Redistribution With IOS Tools
  • Tune the redistribution using a route map to translate RIPv2 metrics into OSPF metrics and filter routing updates using a distribute list.
• Lab 6-1: Configuring Multihome BGP
  • Configure EBGP on the enterprise router to connect to the two ISPs.
• Lab 6-2: Manipulating BGP Path Selection with Route Maps
  • Manipulate BGP path selection using MED and local preference with route maps.
• Lab 7-1: Configuring Multicast Routing
  • Implement multicast routing, configure PIM sparse-dense mode, analyze a multicast group, configure auto rendezvous point (RP), and enable a router to join a multicast group.
• Lab 8-1: Configuring IPv6 Addresses
  • Enable IPv6 routing globally and configure IPv6 addresses on all router interfaces that are not shutdown.
• Lab 8-2: Enabling IPv6 OSPF Routing
  • Configure an IPv6 routing on your pod routers.
• Lab 8-3: Configuring IPv6 Tunnels
  • Manually configure an IPv6-to-IPv4 tunnel.