The Course Name: SPADVROUTE â Deploying Cisco Service Provider Advanced Routing
The Duration: 5 Days
The Overview:
The purpose of this course is to teach participants how to prepare for the SPROUTE exam required for the new CCNP-SP certification.
What You Will Learn:
- Â Â Â Â Â Configure the provider network to support multiple BGP connections with customers and other autonomous systems
- Â Â Â Â Â Common routing and addressing scalability issues in the provider network
- Â Â Â Â Â Available BGP tools and features to secure and optimize the BGP routing protocol in a service provider environment
- Â Â Â Â Â IP multicast services and the technologies that are present in IP multicasting
- Â Â Â Â Â PIM-SM as the most current scalable IP multicast routing protocol
- Â Â Â Â Â Service provider IPv6 transition implementations
The Course Index:
- Service Provider Connectivity with BGP
- Customer-to-Provider Connectivity Requirements
- Connectivity Types
- Routing Schemes
- Addressing and AS Number Allocation
- Connecting a Customer to a Service Provider
- Implementing Customer Connectivity Using Static Routing
- Connecting a Single or Dual-Attached Customer to a Single Service Provider
- Connecting a Multihomed Customer to Multiple Service Providers
- Service provider mig
- Scaling Service Provider Networks
- Scaling BGP in Service Provider Networks
- Route Propagation in Service Provider Networks
- Scaling BGP Routing and Addressing
- BGP Route Reflectors and Confederations
- BGP Route Reflector
- Designing with BGP Route Reflectors
- Implementing BGP Route Reflectors
- BGP Confederations
- Secure and Optimize BGP
- Implementing Advanced BGP Operations
- BGP Security Options
- BGP Optimization Options
- Improving BGP Convergence
- BGP Route Dampening
- BGP Convergence
- BGP Timers and Intervals
- Path MTU Discovery
- Bidiractional Forwarding Detection for BGP
- Improving BGP Configuration Scalability
- BGP Peer Groups
- BGP Configuration Templates
- BGP Peer Templates
- Multicast
- IP Multicast
- Benefits and Caveats
- Multicast Sessions
- IP Multicast Model
- Multicast Protocols
- Multicast Distribution Trees and Forwarding
- Multicast Distribution Trees
- Multicast Protocols
- Multicast on the LAN
- Mapping Multicast IP Addresses to a MAC Addresses
- Implementing IGMP
- IGMP Snooping
- Populating the Mroute Table
- Mroute Table
- Multiprotocol BGP
- Intradomain and Interdomain Multicast Routing
- PIM-SM Protocol
- PIM-SM Principles and Operation
- PIM-SM Protocol Mechanics
- Implement PIM-SM
- Implementing PIM-SM Enhancements
- Source Specific Multicast
- Bidirectional PIM
- Implementing Inter-Domain IP Multicast
- Dynamic Inter-Domain IP Multicast
- Multicast Source Discovery Protocol
- Rendezvous Point (RP) Distribution Solutions
- RP Distribution Solutions
- Auto-RP
- PIMv2 Bootstrap Router
- Anycast RP
- Service Provider IPv6 Transition Implementations
- IPv6 Services
- IPv6 Multicast Services
- IPv6 Multicast Listener Discovery
- DNS and DHCPv6 in the IPv6 Networks
- QoS Support in the IPv6 Network
- Cisco IOS, IOS XE, and IOS XR Software IPv6 Tools
- IPv6 Transition Mechanisms
- Dual Stack
- IPv6 Tunneling Mechanisms
- Carrier Grade NAT and NAT64
- Deploying IPv6 in the Service Provider Network
- IPv6 Service Provider Deployment
- IPv6 Broadband Access Services
Labs:
Lab 1: Implement BGP Route Reflectors
Lab 2: Implement BGP Security Options
Lab 3: Improve BGP Scalability
Lab 4: Implement Layer 2 and Layer 3 Multicast
Lab 5: Enable and Optimize PIM-SM
Lab 6: Implement PIM-SM Enhancements
Lab 7: Implement Rendezvous Point Distribution
Lab 8: Implement a DHCPv6 Server with Prefix Delegation
Lab 9: Implement IPv6 Multicasting
Lab 10: Implement Tunnels for IPv6