I. BGP Overview
Introduction to BGP
• Given a network scenario, identify appropriate BGP usage and its limitations

BGP Session Establishment
• Given a typical BGP network scenario, describe the concept of BGP neighbors and the neighbor session establishment procedures

BGP Route Processing
• Given a diagram of an operational BGP network, describe interdomain route processing, route propagation and BGP path selection

Basic BGP Configuration
• Given a network consisting of multiple domains, successfully configure BGP

Monitoring and Troubleshooting BGP
• Given a configured BGP network, verify proper operation and perform the steps necessary to correct basic BGP configuration errors

II. Route Selection Using Policy Controls
Multi-Homed BGP Networks
• Given a customer scenario where connections to multiple ISPs must be supported, describe the need for influencing BGP route selection

AS-Path Filters
• Given a customer scenario where connections to multiple ISPs must be supported, successfully configure BGP to influence route selection using AS path filters

Prefix-List Filters
• Given a customer scenario where connections to multiple ISPs must be supported, successfully configure BGP to influence route selection using prefix-list filters

Outbound Route Filtering
• Given an operational BGP network, use outbound route filtering to minimize the impact of BGP routing updates on router resources

Route-Maps as BGP Filters
• Given a typical BGP network, correctly configure BGP to influence route selection using route maps

Implementing Changes in BGP Policy
• Given a typical BGP network, configure the route-refresh feature to minimize the impact of expediting BGP policy updates

III. Route Selection Using Attributes
BGP Path Attributes
• List BGP path attributes and functionality of each attribute Influencing BGP Route Selection with Weights
• Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using the weight attribute

BGP Local Preference
• Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using the local preference attribute

BGP Multi-Exit-Discriminator (MED)
• Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using the Multi-Exit-Discriminator (MED) attribute

BGP Communities
• Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using BGP community attributes

IV. Customer-to-Provider Connectivity with BGP
Customer Connectivity Requirements
• Describe the requirements to connect customer networks to the Internet in a service provider environment

Static Routing Toward the Customer
• Given a service provider network, implement customer connectivity using static routing

BGP Customer Multi-Homed to a Single Service Provider
• Given a customer scenario where multiple connections to a single ISP must be supported, implement customer connectivity with BGP

BGP Customer Multi-Homed to Multiple Service Providers
• Given a customer scenario where connections to multiple ISPs must be supported, implement customer connectivity with BGP

V. BGP Transit Autonomous System
Transit Autonomous System Functions
• Describe the function of a transit autonomous system and the need for IBGP IBGP and EBGP Interaction in a Transit AS
• Given a transit autonomous system, describe the interaction between EBGP and IBGP in relation to relevant BGP attributes

Packet Forwarding in Transit Autonomous Systems
• Describe the function of an IGP in forwarding packets through an autonomous system

Configuring a Transit Autonomous System
• Given a BGP network scenario, successfully configure an autonomous system to act as a transit backbone

Monitoring and Troubleshooting IBGP in Transit AS
• Given a configured BGP transit network, verify proper operation and perform the steps necessary to correct basic IBGP configuration errors

VI. BGP Route Reflectors
Introduction to Route Reflectors
• Describe the function and operation of route reflectors in a BGP environment

Network Design with Route Reflectors
• Based upon established route reflector design rules, describe the concept of hierarchial route reflectors and their requirements

Configuring and Monitoring Route Reflectors
• Given an existing IBGP network, configure and verify proper operation of route reflectors to modify IBGGP split-horizon rules

VII. Advanced BGP Configuration
Limiting the Number of Prefixes Received from a BGP Neighbor
• Given a typical BGP network, successfully configure BGP to limit the number of prefixes received from a neighbor

AS-Path Prepending
• Given a typical service provider network with connections to multiple autonomous systems, use AS-Path prepending to influence the return path selected by the neighboring autonomous systems

BGP Peer Group
• Given a typical BGP network, use BGP peer groups to share common configuration parameters between multiple BGP peers

BGP Route Flap Dampening
• Given a properly configured BGP network, use route flap dampening to minimize the impact of unstable routes

VIII. Scaling IGP and BGP in Service Provider Networks
Common Routing Issues in Service Provider Networks
• Describe common routing concerns of service provider networks

Optical Networking Designs
• Describe the scalability issues of using OSPF and IS-IS as interior gateway protocols in a service provider network and list solutions for each

Scaling BGP in Service Provider Networks
• Describe common scalability issues when using BGP in a service provider network and list solutions for each