IBM BC-201 DLSw+ Features, IP Multicast, UDP Unicast, Enhanced Peer-on-Demand Routing Feature

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Overview of IBM Networking

DLSw+

IP Multicast

Multicast service avoids duplication and excessive bandwidth of broadcast traffic because it replicates and propagates messages to its multicast members only as necessary. It reduces the amount of network overhead in the following ways:

Avoids the need to maintain TCP Switch-to-Switch Protocol (SSP) connections between two DLSw peers when no circuits are available

Ensures that each broadcast results in only a single explorer over every link

DLSw Version 2 is for customers who run a multicast IP network and do not need the advantages of border peering.

UDP Unicast

DLSw Version 2 uses UDP unicast in response to a IP multicast. When address resolution packets (CANUREACH_EX, NETBIOS_NQ_ex, NETBIOS_ANQ, and DATAFRAME) are sent to multiple destinations (IP multicast service) DLSw Version 2 sends the response frames (ICANREACH_ex and NAME_RECOGNIZED_ex) via UDP unicast.

Enhanced Peer-on-Demand Routing Feature

DLSw Version 2 establishes TCP connections only when necessary and the TCP connections are brought down when there are no circuits to a DLSw peer for a specified amount of time. This method, known as peer-on-demand routing, was recently introduced in DLSw Version 2, but has been implemented in Cisco DLSw+ border peer technology since Cisco IOS Release 10.3.

Expedited TCP Connection

DLSw Version 2 efficiently establishes TCP connections. Previously, DLSw created two unidirectional TCP connections and then disconnected one after the capabilities exchange took place. With DLSw Version 2, a single bidirectional TCP connection establishes if the peer is brought up as a result of an IP multicast/UDP unicast information exchange.

DLSw+ Features

DLSw+ is the Cisco version of DLSw and it supports several additional features and enhancements. DLSw+ is a means of transporting SNA and NetBIOS traffic over a campus or WAN. The end systems can attach to the network over Token Ring, Ethernet, Synchronous Data Link Control (SDLC) Protocol, Qualified Logical Link Control (QLLC), or FDDI. See the DLSw+ Design and Implementation Guide Appendix B, “DLSw+ Support Matrix,” for details. DLSw+ switches between diverse media and locally terminates the data links, keeping acknowledgments, keepalives, and polling off the WAN. Local termination of data links also eliminates data-link control timeouts that can occur during transient network congestion or when rerouting around failed links. Finally, DLSw+ provides a mechanism for dynamically searching a network for SNA or NetBIOS resources and includes caching algorithms that minimize broadcast traffic.

 

Cisco IOS Bridging and IBM Networking Configuration Guide

BC-206

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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