IBM BC-201 manual Sdllc Media Translation Features, Virtual Token Ring Concept, BC-218

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Overview of IBM Networking

IBM Network Media Translation

Figure 91 illustrates how SDLLC provides data link layer support for SNA communication.

Figure 91 SNA Data Link Layer Support

Upper layers

SNA

Data link layer SDLC

SDLLC

LLC

LNX

QLLC

X.25

S3028

SDLLC Media Translation Features

The SDLLC feature allows a PU 4, PU 2.1, or PU 2 to communicate with a PU 2 SDLC device as follows:

SDLLC with direct connection—A 37x5 front-end processor (FEP) on a Token Ring and the 3x74 cluster controller connected to a serial line are each connected to an interface on the same router configured with SDLLC.

SDLLC with RSRB—A 37x5 FEP on a Token Ring and a 3x74 cluster controller connected to a serial line are connected to different routers. Only the device to which the 3x74 is connected is configured with SDLLC. The routers communicate via RSRB using direct encapsulation, RSRB over an FST connection, or RSRB over a TCP connection.

SDLLC with RSRB and local acknowledgment—A 37x5 FEP on a Token Ring and a 3x74 cluster controller connected to a serial line are connected to different routers. Only the device to which the 3x74 is connected is configured with SDLLC. The routers communicate via RSRB over a TCP connection that has local acknowledgment enabled.

In all these topologies, each IBM end node (the FEP and cluster controller) has no indication that its counterpart is connected to a different medium running a different protocol. The 37x5 FEP responds as if the 3x74 cluster controller were communicating over a Token Ring, whereas the 3x74 responds as though the 37x5 FEP were communicating over a serial line. That is, the SDLLC software makes translation between the two media transparent to the end nodes.

Virtual Token Ring Concept

Central to the Cisco SDLLC feature is the concept of a virtual Token Ring device residing on a virtual Token Ring. Because the Token Ring device expects the node with which it is communicating also to be on a Token Ring, each SDLLC device on a serial line must be assigned an SDLLC virtual Token Ring address (SDLLC VTRA). Like real Token Ring addresses, SDLLC VTRAs must be unique across the network.

In addition to the SDLLC VTRA, an SDLLC virtual ring number must be assigned to each SDLLC device on a serial line. (The SDLLC virtual ring number differs from the virtual ring group numbers that are used to configure RSRB and multiport bridging.)

 

Cisco IOS Bridging and IBM Networking Configuration Guide

BC-218

78-11737-02

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Contents Overview of IBM Networking BC-201Rsrb BC-202Configuration Considerations BC-203DLSw+ BC-204DLSw Standard DLSw Version 2 StandardBC-205 IP Multicast DLSw+ FeaturesEnhanced Peer-on-Demand Routing Feature UDP UnicastLocal Acknowledgment BC-207BC-208 LLC2 Session Without Local AcknowledgmentBC-209 DLSw+ Support for Other SNA Features BC-210Stun and Bstun Stun NetworksBC-211 Stun Features BC-212BC-213 BC-214 StunBstun Networks Bstun FeaturesLLC2 and Sdlc Parameters BC-215Cisco Implementation of LLC2 BC-216IBM Network Media Translation Cisco Implementation of SdlcBC-217 Sdllc Media Translation Features Virtual Token Ring ConceptBC-218 Other Considerations Resolving Differences in LLC2 and Sdlc Frame SizeMaintaining a Dynamic RIF Cache BC-219Qllc Conversion BC-220Cisco Implementation of Qllc Conversion BC-221Comparing Qllc Conversion to Sdllc BC-222Other Implementation Considerations BC-223RFC 1490 Routed Format for LLC2 BNN BC-224RFC 1490 Bridged Format for LLC2 BAN BC-225Ncia Server BC-226Ncia Client/Server Model BC-227Advantages of the Client/Server Model Extended ScalabilityBC-228 Migration Support BC-229Dspu and SNA Service Point BC-230Shows a router functioning as a Dspu concentrator BC-231SNA Switching Services Benefits of SNASwBC-232 IP Infrastructure Support Reduced Configuration RequirementsScalable Appn Networks Network Design SimplicityHPR Capable SNA Routing Services Branch ExtenderBC-234 Enterprise Extender HPR/IP BC-235Dynamic CP Name Generation Support Usability FeaturesResponsive Mode Adaptive Rate-Based Flow Control Dynamic SNA BTU SizeUser-Settable Port Limits Interprocess Signal TracingManagement Enhancements Console Message ArchivingToken Ring, Ethernet, and Fddi LAN and IP-Focused Connection TypesMIB Support for Advanced Network Management Awareness Virtual Token RingCisco Transaction Connection Virtual Data-Link ControlNative IP Data-Link Control HPR/IP Ctrc and Cics BC-240Ctrc and DB2 BC-241Cmcc Adapter Hardware Benefits of CtrcBC-242 Channel Interface Processor Channel Port AdapterBC-243 Parallel Channel Port Adapter Differences Between the CIP and CPAEscon Channel Port Adapter BC-244Supported Environments Cmcc Adapter Features for TCP/IP EnvironmentsCommon Link Access to Workstation TCP/IP OffloadIP Host Backup Cisco Multipath Channel+BC-246 Cmcc Adapter Features for SNA Environments Cisco SNABC-247 Cisco Multipath Channel TN3270 ServerBC-248 SNA Functions Telnet Server FunctionsBC-249 BC-250
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