After studying this chapter you will be able to: Describe the fundamental concepts of Frame Relay technology in terms of Enterprise WAN services including Frame Relay operation, Frame Relay implementation requirements, Frame Relay maps, and LMI operation; configure a basic Frame Relay PVC including configuring and troubleshooting Frame Relay on a router serial interface and configuring a static Frame Relay map. | Frame Relay Accessing the WAN – Chapter 3 Objectives Describe the fundamental concepts of Frame Relay technology in terms of Enterprise WAN services including Frame Relay operation, Frame Relay implementation requirements, Frame Relay maps, and LMI operation. Configure a basic Frame Relay PVC including configuring and troubleshooting Frame Relay on a router serial interface and configuring a static Frame Relay map. Describe advanced concepts of Frame Relay technology in terms of Enterprise WAN services including Frame Relay sub-interfaces, Frame Relay bandwidth and flow control. Configure an advanced Frame Relay PVC including solving reachability issues, configuring Frame Relay sub-interfaces, verifying and troubleshooting Frame Relay configuration. Describe the Fundamental Concepts of Frame Relay Technology Describe how Frame Relay is used to provide WAN services to the Enterprise Describe the Fundamental Concepts of Frame Relay Technology Describe how Frame Relay uses virtual circuits to carry packets from one DTE to another Describe the Fundamental Concepts of Frame Relay Technology Explain how Frame Relay encapsulation works Describe the Fundamental Concepts of Frame Relay Technology Describe the types of topologies that are used for implementing Frame Relay in different environments Describe the Fundamental Concepts of Frame Relay Technology Describe how a router attached to a Frame Relay network uses LMI status messages and inverse ARP queries to map VCs to layer 3 network IP Addresses Configure a Basic Frame Relay PVC Configure a basic Frame Relay PVC on a router serial interface Configure a Basic Frame Relay PVC Configure a static Frame Relay map Describe Advanced Concepts of Frame Relay Technology Explain the reachability issues associated with the Frame Relay NBMA topology Describe Advanced Concepts of Frame Relay Technology Describe how to implement bandwidth control in the Frame Relay technology Describe Advanced Concepts of Frame Relay Technology Describe how to implement flow control in Frame Relay technology Configure an Advanced Frame Relay PVC Explain the steps to configure point-to-point subinterfaces on a physical interface Configure an Advanced Frame Relay PVC Describe the commands used for verifying Frame Relay operation Configure an Advanced Frame Relay PVC Describe the steps for troubleshooting a Frame Relay configuration Summary Frame relay is the most widely used WAN technology because it: Provides greater bandwidth than leased line Reduces cost because it uses less equipment Easy to implement Frame relay is associated with layer 2 of the OSI model and encapsulates data packets in a frame relay frame Frame relay is configured on virtual circuits These virtual circuits may be identified by a DLCI Frame relay uses inverse ARP to map DLCI to IP addresses Summary Configuring frame relay requires Enable frame relay encapsulation Configuring either static or dynamic mapping Considering split horizon problems that develop when multiple VCs are placed on a single physical interface Factor affecting frame relay configuration How service provider has their charging scheme set up Frame relay flow control DE FECN BECN Summary The following commands can be used to help verify frame relay configuration Show interfaces Show frame-relay lmi Show frame-relay pvc ### Show frame-relay map Use the following command to help troubleshoot a frame relay configuration Debug frame-relay lmi