ICMI - Implementing A Cisco Multicast Infrastructure

<sup>Suggested Prerequisites
Experience with and ability to configure Cisco routers and LAN Switches. CCNA + BSCI knowledge or equivalent.

Who Needs to Attend
Engineers responsible for designing, implementing, and troubleshooting IP multicast-enabled networks; IT personnel who may implement streaming voice/video/data services in an enterprise, including ISPs and those in financial
service enterprises, the health care industry, or cable TV companies; those preparing for the CCIE practical exam.</sup>

Learn to design, implement, and troubleshoot IP multicast-enabled networks.
In this course, you will learn how infrastructures are multicast enabled to support the efficiency of multicast business applications and services. Learn to identify Cisco products and protocols required
to implement multicast solutions in both local and wide area networks within your enterprise and beyond. You will implement services at each layer of the network to obtain membership to multicast groups in a working environment. Our hands-on labs will give you access to several multicast applications and troubleshooting tools.

What You'll Learn

• IP Multicast Application Types
• Basic Model of IP Multicast 
• IP Multicast Addressing
• Multicast Distribution Trees and Protocol Types
• Reporting Group Membership
• Multicast MAC-Layer Addresses and Switch Forwarding 
• IGMP Snooping Implementation 
• PIM Dense Mode Configuration and Troubleshooting 
• PIM Sparse Mode Configuration and Troubleshooting 
• Source Specific Multicast 
• Bidirectional PIM 
• Configuring Redundant Rendezvous Points Using Anycast MSDP, Auto RP, or BSR 
• Combining Anycast RP and Auto-RP 
• Multicast Scoping Including Using Administratively Scoped Zones 
• Multicast Security, High Availability, and Reliability 
• Multicast over NBMA Networks 
• Tunneling Multicast over Unicast Networks 
• Multicast with VPNs and MPLS 
• Interdomain Multicast with MBGP and MSDP Configuration

Course Outline

1. IP Multicast Foundation

• Overview and Outline 
• Chapter Objectives 
• IP Multicast Benefits and Caveats 
• IP Multicast Application Types 
• The Basic Model of IP Multicast 
• IP Multicast Addressing 
• Multicast Sessions - Directory Services 
• Summary 
• Review Questions

2. Function of a Multicast Network

• Overview and Outline 
• Chapter Objectives 
• Functions of Multicast-Enabled Networks 
• Multicast Distribution Trees and Protocol Types 
• Reporting Group Membership 
• Summary 
• Review Questions

3. Multicast LAN Switch Operation

• Overview and Outline 
• Chapter Objectives 
• Multicast MAC-Layer Addresses and Switch Forwarding 
• Constraining Multicast Streams on LAN Switch Ports 
• IGMP Snooping Implementation 
• Summary 
• Review Questions

4. PIM Dense Mode

• Overview and Outline 
• Chapter Objectives
• PIM Dense Mode Overview 
• PIM Dense Mode Details 
• PIM Dense Mode Configuration and Troubleshooting 
• Summary 
• Review Questions

5. PIM Sparse Mode

• Overview and Outline 
• Chapter Objectives 
• PIM Dense Sparse Overview 
• PIM State 
• PIM Packet Types 
• PIM SM Joining 
• PIM SM Registering 
• PIM SPT-Switchover 
• PIM SM Pruning 
• PIM Sparse Mode Configuration and Troubleshooting 
• Summary 
• Review Questions

6. PIM-SM Variants

• Overview and Outline 
• Chapter Objectives
• Source Specific Multicast
• Bidirectional PIM
• Bidirectional PIM Basic Configuration
• Bidirectional PIM Designated Forwarders
• Bidirectional PIM Mroute Forwarding State (*, G)
• Bidirectional PIM Phantom BiDir RPs
• Summary
• Review Questions

7. Redundant Rendezvous Points

• Overview and Outline
• Chapter ObjectivesConfiguring Redundant Rendezvous Points Using MSDP
• Redundant RP Configuration and Recommendations
• Configuring Redundant Rendezvous Points Using Auto RP
• Configuring Redundant Rendezvous Points Using BSR
• Combining Anycast RP and Auto-RP
• Tuning RP Operations
• Summary
• Review Questions

8. Administrative Scoping and Filtering of Multicast

• Overview and Outline
• Chapter Objectives
• Multicast Scoping
• Using Administratively Scoped Zones
• Summary
• Review Questions

9. Security, High Availability, and Reliability

• Overview and Outline
• Chapter Objectives
• Advanced Multicast Engineering - Security
• Advanced Multicast Engineering - High Availability
• What is Reliable IP Multicast?
• Pragmatic General Multicast
• Summary
• Review Questions

10. WAN, VPN, and MPLS for Multicast

• Overview and Outline
• Chapter Objectives
• Multicast over NBMA Networks
• Tunneling Multicast over Unicast Networks
• Multicast with VPNs and MPLS
• Summary
• Review Questions

11. Interdomain Multicast with MBGP and MSDP

• Overview and Outline
• Chapter Objectives
• Basic Overview Interdomain Multicast Routing
• MBGP Configuration
• MSDP Configuration
• Summary
• Review Questions

^{Appendix A Cisco Security Appliance Command
Appendix B PGM Configuration
Appendix C MSDP RPF Rules}

Labs
We have developed additional in-depth labs that complement those recommended by Cisco. The network core contains a 3550 switch and six routers in a pod and there may be up to two pods.
Our ICMI labs aren't demos-they provide the tools and real-world scenarios for hands-on practice
and learning. All configuration, monitoring, and debugging is done by you.

Lab 1: Multicast Applications and Addressing
Utilize PC multicast applications such as SDR, Whiteboard, Audio, and Video tools to create and view session announcements, join existing multicast groups, understand multicast session parameters and options, and exchange multicast data.

Lab 2: Setup and Configuration
Wire the lab and utilize the Cisco IOS to configure each router in the student group for initial operation. You'll also set up each PC in the group. To get the idea about IGMP and how it works,
you will observe the periodic sending of IGMP packets in your network before and after the receivers announce their presence and when they decide to leave the multicast group.

Lab 3: IGMP Configuration and Operation
Configure IGMP and PIM on the routers and monitor them with IOS commands. Identify addresses used for Session Announcement Protocol, and router interfaces will join a group. Monitor the effects of IGMP Snooping on the 3350 switch in this lab.

Lab 4: PIM Dense Mode Configuration
Configure PIM on all routers. Baseline the network with no multicast source and no receivers. Initialize the multicast source, set router interfaces to join the group with no receivers, and observe dense mode impact on RPF. Then, you'll compare the network with PIM Dense Mode running to the baseline. Using IOS debug and show commands, you will analyze the following PIM Dense Mode events:

• PIM Pruning and Grafting
• Join/Prune
• Grafting
• PIM Assert
• PIM Multicast Forwarding Table Timers

Lab 5: Sparse Mode Configuration
Configure PIM Sparse Mode on the routers. Make topology changes with PIM Sparse Mode configuration, observe the shared tree, and analyze it with receivers, no source, and then
with a source. Learn to identify the switchover from shared tree to shortest path tree.

Lab 6: Source Specific Multicast and Bi-Directional PIM
Configure, monitor, and troubleshoot PIM Source Specific Multicast and Bi-Directional PIM. Apply
your knowledge of the IGMP and PIM Sparse mode in a real situation and explore the troubleshooting tools needed in simple IP multicast solutions.

Lab 7: Redundant Rendezvous Points
Configure, monitor, and troubleshoot Redundant Rendezvous Points configured statically with MSDP
and with Auto-RP. Apply your knowledge of PIM Sparse mode, MSDP, and Auto-RP in a real situation and explore the troubleshooting tools needed in IP multicast solutions. Also, explore configuration
using Static MSDP and Auto-RP together.

Lab 8: IP Multicast Administrative Scoping
Configure, monitor, and troubleshoot Administrative Scoping via TTL and Multicast Address.

Lab 9: Tunneling Multicast over a Unicast Network
Configure and troubleshoot multicast tunneling over unicast links. Apply lessons learned in the class
to design, configure, and troubleshoot real-world scenarios where ISPs or WAN connections are not multicast enabled.