IBM BC-201 manual Advantages of the Client/Server Model, Extended Scalability, BC-228

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Overview of IBM Networking

NCIA

After the peer session has been established, the NDLC protocol establishes the circuit between the client and server. This circuit is used to transfer end-user data between the client and the server. Because the client and its target station are not on the same transport, they cannot form a direct, end-to-end circuit. Each client must form a circuit between the client and server, and the server must form another circuit between the server and the target station. The server links those two circuits to form an end-to-end circuit. The server acts as a mediator between the client and the target station so that packets can be transferred between them.

In the NCIA server only peer keepalive is maintained. There is no keepalive at circuit level.

The NCIA server acts as a data-link provider, like Token Ring or Ethernet, in the router. It uses CLSI to communicate with other software modules, just as other data-link providers do. The network administrator configures the router to communicate with specific modules. For data-link users, such as SNASw, DLSw+, and DSPU, the NCIA server can interface to them directly. For other data-link providers, the NCIA server must go through a DLSw+ local peer to communicate with them. The DLSw+ local peer passes packets back and forth among different data-link providers.

Advantages of the Client/Server Model

The client/server model used in the NCIA Server feature extends the scalability of NCIA. In addition, it provides support for both the installed base of RSRB routers and the growing number of DLSw+ routers.

Extended Scalability

The client/server model minimizes the number of central site RSRB or DLSw+ peer connections required to support a large network of NCIA clients (see Figure 102). Rather than each client having a peer connection to a central site router, the clients attach to an IP backbone through an NCIA server that, in turn, has a single peer connection to a central site router. This scheme can greatly reduce the number of central site peer connections required. For example, in a network with 1000 clients and 10 NCIA servers, there would be only 10 central site peer connections. Note that there would still be 1000 LLC2 connections that must be locally acknowledged at the central site router, but this can easily be handled in a single central site router. When the number of LLC2 connections (or the number of clients) is in the tens of thousands, NCIA servers can take advantage of downstream PU concentration to minimize the number of LLC2 connections that must be supported by the central site routers.

Figure 102 NCIA Server Provides Extended Scalability to Support Large Networks

RSRB

RSRB

IP

Token

backbone

Ring

Mainframe

with FEP

NCIANCIA

server client

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Cisco IOS Bridging and IBM Networking Configuration Guide

BC-228

78-11737-02

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Contents Overview of IBM Networking BC-201Rsrb BC-202Configuration Considerations BC-203DLSw+ BC-204DLSw Version 2 Standard DLSw StandardBC-205 DLSw+ Features Enhanced Peer-on-Demand Routing FeatureIP Multicast UDP UnicastLocal Acknowledgment BC-207BC-208 LLC2 Session Without Local AcknowledgmentBC-209 DLSw+ Support for Other SNA Features BC-210Stun Networks Stun and BstunBC-211 Stun Features BC-212BC-213 BC-214 StunBstun Features LLC2 and Sdlc ParametersBstun Networks BC-215Cisco Implementation of LLC2 BC-216Cisco Implementation of Sdlc IBM Network Media TranslationBC-217 Virtual Token Ring Concept Sdllc Media Translation FeaturesBC-218 Resolving Differences in LLC2 and Sdlc Frame Size Maintaining a Dynamic RIF CacheOther Considerations 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-227Extended Scalability Advantages of the Client/Server ModelBC-228 Migration Support BC-229Dspu and SNA Service Point BC-230Shows a router functioning as a Dspu concentrator BC-231Benefits of SNASw SNA Switching ServicesBC-232 Reduced Configuration Requirements Scalable Appn NetworksIP Infrastructure Support Network Design SimplicityBranch Extender HPR Capable SNA Routing ServicesBC-234 Enterprise Extender HPR/IP BC-235Usability Features Responsive Mode Adaptive Rate-Based Flow ControlDynamic CP Name Generation Support Dynamic SNA BTU SizeInterprocess Signal Tracing Management EnhancementsUser-Settable Port Limits Console Message ArchivingLAN and IP-Focused Connection Types MIB Support for Advanced Network Management AwarenessToken Ring, Ethernet, and Fddi Virtual Token RingVirtual Data-Link Control Cisco Transaction ConnectionNative IP Data-Link Control HPR/IP Ctrc and Cics BC-240Ctrc and DB2 BC-241Benefits of Ctrc Cmcc Adapter HardwareBC-242 Channel Port Adapter Channel Interface ProcessorBC-243 Differences Between the CIP and CPA Escon Channel Port AdapterParallel Channel Port Adapter BC-244Cmcc Adapter Features for TCP/IP Environments Common Link Access to WorkstationSupported Environments TCP/IP OffloadCisco Multipath Channel+ IP Host BackupBC-246 Cisco SNA Cmcc Adapter Features for SNA EnvironmentsBC-247 TN3270 Server Cisco Multipath ChannelBC-248 Telnet Server Functions SNA FunctionsBC-249 BC-250
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