A demand driven access protocol for high speed networks

Proceedings of the Third Workshop on Future Trends of Distributed Computing Systems Pub Date : 1992-04-14 DOI:10.1109/FTDCS.1992.217500

F. Schaffa, M. Willebeek-LeMair, B. Patel, M. Gerla

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引用次数: 1

Abstract

A demand driven access (DDA) protocol for fiber-optic slotted rings is presented. The proposed protocol is simple and distributed. Under light load conditions, the protocol allows for efficient use of the available bandwidth since no overhead is incurred. In effect, the protocol is demand driven since access arbitration is only activated as the load increases in order to guarantee all nodes a maximum access delay. The protocol is designed for a counter-rotating dual-ring topology. Counter-rotating rings are required to carry backpressure control information in the opposite direction of the data flow. Furthermore, slots are freed at the destination node (as opposed to the source node). This considerably increases the potential throughput of the network. Simulation results demonstrate that for a ring a N nodes, given a uniform destination distribution, a maximum throughput of close to N/4 packets per slot time is achieved under heavy load conditions. Under these load conditions, the average access delay per packet is also on the order of N/4 slot times. The DDA protocol is shown to outperform FDDI both in terms of throughput and access delay.<>

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一种需求驱动的高速网络接入协议

提出了一种用于光纤开槽环的需求驱动接入(DDA)协议。所提出的协议是简单和分布式的。在轻负载条件下，该协议允许有效地利用可用带宽，因为没有产生开销。实际上，该协议是需求驱动的，因为只有在负载增加时才激活访问仲裁，以保证所有节点的最大访问延迟。该协议是针对反向旋转双环拓扑设计的。需要反向旋转环在与数据流相反的方向上携带反压力控制信息。此外，在目标节点(而不是源节点)释放槽位。这大大增加了网络的潜在吞吐量。仿真结果表明，对于环a N个节点，在目的地均匀分布的情况下，在高负载条件下，每个时隙时间的最大吞吐量接近N/4个数据包。在这些负载条件下，每个数据包的平均访问延迟也在N/4个时隙时间的数量级上。DDA协议在吞吐量和访问延迟方面都优于FDDI。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Third Workshop on Future Trends of Distributed Computing Systems

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