Post on 31-Dec-2015
Lecture Week 3
Frame Relay Accessing the WAN
3.1 Basic Frame Relay Concepts
Accessing the WAN
Basics• Frame Relay is a data link layer packet-switching protocol
that uses digital circuits.
• It is used for medium to longer distances and for longer
connectivity.
• Leased lines also provide longer connectivity but a physical
circuit is used to make connection between 2 sites and the
same circuit path is used always.
• Frame Relay connections use logical circuits to make
connections between 2 sites. These logical circuits are
referred to as Virtual Circuits(VCs).
• Multiple VCs can exist on the same physical connection.
• VCs are Full duplex.
Advantages of Frame Relay
• VCs overcome the scalability problems of
leased lines by providing multiple logical circuits
over the same physical connection.
• Only one serial interface of a router is needed to
handle the VC connections to multiple sites Whereas
using leased lines multiple serial interfaces are needed
to connect to multiple sites.
• VCs provide full connectivity at a much lower price
compared to leased lines.
• Sub-interfaces
• Uses Shared bandwidth
• Local Management interface(LMI):
– used between the Frame relay DTE(eg.Router) and the
Frame Relay DCE(eg. Frame Relay switch)
– Defines how the DTE interacts with the DCE
– Locally significant
– Provides VCs status information(a keep-alive
mechanism)
– LMI standards : Cisco, ANSI, Q933a
The DTE and DCE must have the same LMI signaling type
Frame Relay Terminology
• Data Link Connection Identifier(DLCI) :
– used to identify each VC on a physical interface (i.e.)
Each VC has a unique local address called a DLCI number.
– switch will map to the destination depending on
the DLCI number
– Inverse ARP is used to map DLCIs to next hop
addresses.
– Mapping can also be done manually.
– Its Locally significant.
– These numbers are given by the Frame relay
service providers, Service providers assign DLCIs in
the range of 16 to 1007.
Frame Relay Terminology
• Virtual circuits are of two types:
– Permanent Virtual Circuits – PVCs
– Switched Virtual Circuits –SVCs
• Permanent Virtual Circuit :
– similar to a dedicated leased line , permanent connection.
– used when constant data is being generated.
• Switched Virtual Circuit :
– also called as Semi-permanent virtual circuit
– similar to a circuit switched connection where the VC is dynamically built and then torn down once the data has been sent.
– used when data has to be sent in small amounts and at periodic intervals.
Frame Relay Terminology
• Committed Information Rate(CIR) :
– Average data rate measured over a fixed period
of time that the carrier guarantees for a VC.
– committed bandwidth
• Burst Rate(BR) :
– Average data rate provider guarantees for a VC.
– Excess bandwidth
Frame Relay Terminology
• FECN and BECN :
– Forward Explicit Congestion Notification
– Backward Explicit Congestion Notification
• When congestion occurs switch marks the FECN
and BECN bits in the frame header.
• FECN is sent to the destination
• BECN is sent to the source
• Thereby notifying both source and destination
about the congestion.
• FECN = 0 and BECN =0 implies no congestion.
Frame Relay Terminology
Frame Relay: An Efficient and Flexible WAN TechnologyFrame Relay reduces network costs by using less equipment, less complexity, and an easier implementation.
The Frame Relay WAN
Frame Relay provides access to a network, delimits and delivers
frames in proper order, and recognizes transmission errors
through a standard Cyclic Redundancy Check.
Virtual CircuitsThe connection through a Frame Relay network between two DTEs is called a virtual circuit (VC).
The Frame Relay Encapsulation Process
Frame Format
Frame Relay Topologies
Frame Relay address maping
• Dynamic Mapping – Inverse ARP
Frame Relay address mapping• Static Mapping
Local Management Interface • LMI is a keepalive mechanism that provides
status information about Frame Relay connections between the router (DTE) and the Frame Relay switch (DCE)
LMI extensions
• VC status messages - Provide information about PVC integrity by communicating and synchronizing between devices.
• Multicasting - Allows a sender to transmit a single frame that is delivered to multiple recipients.
• Global addressing - Gives connection identifiers global rather than local significance, allowing them to be used to identify a specific interface to the Frame Relay network.
• Simple flow control - Provides for an XON/XOFF flow control mechanism that applies to the entire Frame Relay interface.
LMI status messages
3.2 Configure a Basic FR
Accessing the WAN
Configuring FR
Configuring FR (contd.)
Configure a static Frame Relay map
3.3 Advanced FR Concepts
Accessing the WAN
Frame Relay NBMA topology
Frame Relay Subinterfaces
Bandwidth control
Implementing flow control
3.4 Configuring Advanced FR Accessing the WAN
Point-to-point subinterfaces
Point-to-point subinterfaces
Use the frame-relay interface-dlci for local DLCI on the subinterface
Verifying FR configuration.
Troubleshooting FR.
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
Thank You