Integration of telecommunications switching on SCS hypercube packet switches

IEEE WESCANEX 93 Communications, Computers and Power in the Modern Environment - Conference Proceedings Pub Date : 1993-05-17 DOI:10.1109/WESCAN.1993.270567

C. McCrosky, K. Jian, I. Reid

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Abstract

A switch architecture is proposed which can integrate a wide range of modern service demands within one architecture and one physical realization. The proposed architecture is based on highly parallel, distributed packet interconnection networks. Hypercube-based parallel packet switches utilizing the saturated constant shuffle (SCS) algorithm appear to provide the possibility of unified services. The SCS algorithm ensures economical and highly scalable implementations. The aggregate bandwidth of these switches is available for a wide range of services. A great deal of flexibility in the allocation of this aggregate bandwidth is possible. Bandwidth can be reserved for constant bandwidth services such as telephones. Pools of bandwidth can be made available for pools of bursty traffic such as computer data; within these pools individual users can compare for bandwidth. Variable bandwidth traffic cannot consume bandwidth allocated to constant bandwidth users. The authors present the essential ideas of the proposed switch architecture, describe its performance potential, and discuss how the quality of the various services can be assured.<>

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在SCS超立方体分组交换机上集成电信交换

提出了一种能够在一个体系结构和一个物理实现中集成各种现代业务需求的交换机体系结构。该架构基于高度并行的分布式分组互连网络。利用饱和恒洗牌(SCS)算法的基于超立方体的并行分组交换机似乎提供了统一服务的可能性。SCS算法确保了经济和高度可扩展的实现。这些交换机的总带宽可用于各种业务。这种聚合带宽的分配有很大的灵活性。带宽可以预留给固定带宽的业务，如电话。带宽池可用于突发流量池，如计算机数据;在这些池中，各个用户可以比较带宽。可变带宽流量不能占用固定带宽用户的带宽。作者介绍了所提出的交换机体系结构的基本思想，描述了其性能潜力，并讨论了如何保证各种服务的质量。

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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IEEE WESCANEX 93 Communications, Computers and Power in the Modern Environment - Conference Proceedings

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