High Performance Networking, IV: Proceedings of the IFIP TC6/WG6.4 Fourth International Conference on High Performance Networking, Liège, Belgium, 14-18 December, 1992A. Danthine, Otto Spaniol Exploring the increase of performance of networked equipment made possible by new communication supports, this publication should be of particular interest to engineers, computer scientists, EDP managers, R&D professionals, and other researchers, manufacturers, and operators involved in the telecommunications industry. The first is the multimedia communication systems and, more specifically, the distributed multimedia aspects. The second is the enhanced functions and facilities for the network and transport layers to support the changing application environment and to exploit the new networks already, or soon to be, available. The third area is the search for efficient implementations and for high performance systems. |
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Page 106
... Server ( NAS ) . In this section , we briefly describe these interfaces to aid the reader in understanding the next ... Server Transport Access Server SPIA LCA 1 TLE1 NLE1 MAC STSAP TLE NLE SNSAP Network Access Server MAC LCA m Data ...
... Server ( NAS ) . In this section , we briefly describe these interfaces to aid the reader in understanding the next ... Server Transport Access Server SPIA LCA 1 TLE1 NLE1 MAC STSAP TLE NLE SNSAP Network Access Server MAC LCA m Data ...
Page 204
... Server Application Heidi Client Application NRTE NRTE RTE RTE Source Stream Sink Source Stream Sink AVSS D AVK Transport Network Transport Network AVK or Data Link Data Link Network Driver Network Driver и Legend component thread ...
... Server Application Heidi Client Application NRTE NRTE RTE RTE Source Stream Sink Source Stream Sink AVSS D AVK Transport Network Transport Network AVK or Data Link Data Link Network Driver Network Driver и Legend component thread ...
Page 446
... Server inside one ATM's Virtual Channel . In this scenario the IWU's functionality is simplified since it only dialogues with the Server . The complexity is in the Server that performs relaying functions . Frames are relayed on the base ...
... Server inside one ATM's Virtual Channel . In this scenario the IWU's functionality is simplified since it only dialogues with the Server . The complexity is in the Server that performs relaying functions . Frames are relayed on the base ...
Contents
Flow and Rate Control | 47 |
Congestion Control Effective Bandwidth Allocation in ATM Networks | 65 |
A High Speed Data Link Control Protocol | 81 |
Copyright | |
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Common terms and phrases
adapter algorithm ATM networks B-ISDN bandwidth bandwidth allocation bucket buffer bytes channel checksum client communication Computer congestion control connection cycle DATA packet data transfer DECstation distributed multimedia distributed queue effective bandwidth end-to-end error control FDDI Figure file transfer flow control frame FTAM functions header High Performance High Speed Transport host IEEE IFIP implementation input iWarp JVTOS layer maximum mechanism memory multicast multimedia applications multiplexing network interface node operations orchestration overhead P-frames parallel parameters processor protocol data units protocol processing real-time received request reservation retransmission router scheme segment sender server Shared Window simulation slots SMDS specific streams synchronisation TCP/IP throughput traffic transit delay transmission transmit transport protocol transport service TSDU TURBOchannel upper layer protocol user data workstation