IBM BC-201 manual Cmcc Adapter Features for SNA Environments, Cisco SNA, BC-247

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Overview of IBM Networking

CMCC Adapter Features for SNA Environments

CMCC Adapter Features for SNA Environments

The Cisco IOS software supports the following features for CMCC adapters in SNA environments:

Cisco SNA, page 247

Cisco Multipath Channel, page 248

TN3270 Server, page 248

Cisco SNA

The CSNA feature provides support for SNA protocols to the IBM mainframe from Cisco 7500, Cisco 7200, and Cisco 7000 with RSP7000 series routers, using CMCC adapters (over both ESCON and parallel interfaces). As an IBM 3172 replacement, a CMCC adapter in a Cisco router supports the External Communications Adapter (XCA) feature of the Virtual Telecommunications Access Method (VTAM).

Support for the XCA feature allows VTAM to define the CMCC’s Token Ring devices as switched devices. XCA support also allows the CMCC adapter to provide an alternative to FEPs at sites where the NCP is not required for SNA routing functions.

The CSNA feature supports communication between a channel-attached mainframe and the following types of devices attached to a LAN or WAN:

PU 2.0 SNA node

PU 2.1 SNA node

PU 5/4 SNA node

CSNA also supports communication between two mainframes running VTAM that are either channel-attached to the same CMCC adapter card, or channel-attached to different CMCC adapter cards.

The CSNA feature provides SNA connectivity through a MAC address that is defined on an internal adapter in a CMCC. The internal adapter is a virtual adapter that emulates the LAN adapter in an IBM 3172 Interconnect Controller. Each internal adapter is defined in a corresponding XCA major node in VTAM, which provides an access point (LAN gateway) to VTAM for SNA network nodes.

The internal adapter is configured on an internal (virtual) Token Ring LAN located in the CMCC. Each CMCC can be configured with multiple internal Token Ring LANs and internal adapters. Each internal Token Ring LAN must be configured to participate in source-route bridging to communicate with the LAN devices attached to the router.

By providing Cisco Link Services (CLS) and the LLC2 protocol stack on the CMCC adapter card, all frames destined to or from the CMCC adapter card are switched by the router. The presentation of LAN media types allows the CSNA feature to take advantage of current SRB, RSRB, DLSw+, SR/TLB, internal SDLLC, QLLC services, and APPN functionality through SNASw.

The CSNA feature can coexist with the CLAW, TCP/IP Offload, CMPC, CMPC+, and TN3270 server features on the same CMCC adapter.

For details about configuring a CMCC adapter for CSNA, see the “Configuring CSNA and CMPC” chapter in this publication.

 

 

Cisco IOS Bridging and IBM Networking Configuration Guide

 

 

 

 

 

 

 

78-11737-02

 

 

BC-247

 

 

 

 

 

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Contents BC-201 Overview of IBM NetworkingBC-202 RsrbBC-203 Configuration ConsiderationsBC-204 DLSw+BC-205 DLSw StandardDLSw Version 2 Standard UDP Unicast DLSw+ FeaturesEnhanced Peer-on-Demand Routing Feature IP MulticastBC-207 Local AcknowledgmentLLC2 Session Without Local Acknowledgment BC-208BC-209 BC-210 DLSw+ Support for Other SNA FeaturesBC-211 Stun and BstunStun Networks BC-212 Stun FeaturesBC-213 Stun BC-214BC-215 Bstun FeaturesLLC2 and Sdlc Parameters Bstun NetworksBC-216 Cisco Implementation of LLC2BC-217 IBM Network Media TranslationCisco Implementation of Sdlc BC-218 Sdllc Media Translation FeaturesVirtual Token Ring Concept BC-219 Resolving Differences in LLC2 and Sdlc Frame SizeMaintaining a Dynamic RIF Cache Other ConsiderationsBC-220 Qllc ConversionBC-221 Cisco Implementation of Qllc ConversionBC-222 Comparing Qllc Conversion to SdllcBC-223 Other Implementation ConsiderationsBC-224 RFC 1490 Routed Format for LLC2 BNNBC-225 RFC 1490 Bridged Format for LLC2 BANBC-226 Ncia ServerBC-227 Ncia Client/Server ModelBC-228 Advantages of the Client/Server ModelExtended Scalability BC-229 Migration SupportBC-230 Dspu and SNA Service PointBC-231 Shows a router functioning as a Dspu concentratorBC-232 SNA Switching ServicesBenefits of SNASw Network Design Simplicity Reduced Configuration RequirementsScalable Appn Networks IP Infrastructure SupportBC-234 HPR Capable SNA Routing ServicesBranch Extender BC-235 Enterprise Extender HPR/IPDynamic SNA BTU Size Usability FeaturesResponsive Mode Adaptive Rate-Based Flow Control Dynamic CP Name Generation SupportConsole Message Archiving Interprocess Signal TracingManagement Enhancements User-Settable Port LimitsVirtual Token Ring LAN and IP-Focused Connection TypesMIB Support for Advanced Network Management Awareness Token Ring, Ethernet, and FddiNative IP Data-Link Control HPR/IP Cisco Transaction ConnectionVirtual Data-Link Control BC-240 Ctrc and CicsBC-241 Ctrc and DB2BC-242 Cmcc Adapter HardwareBenefits of Ctrc BC-243 Channel Interface ProcessorChannel Port Adapter BC-244 Differences Between the CIP and CPAEscon Channel Port Adapter Parallel Channel Port AdapterTCP/IP Offload Cmcc Adapter Features for TCP/IP EnvironmentsCommon Link Access to Workstation Supported EnvironmentsBC-246 IP Host BackupCisco Multipath Channel+ BC-247 Cmcc Adapter Features for SNA EnvironmentsCisco SNA BC-248 Cisco Multipath ChannelTN3270 Server BC-249 SNA FunctionsTelnet Server Functions BC-250
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