虫洞路由星图多机中基于路径的组播通信

Tzung-Shi Chen, Neng-Chung Wang, Chih-Ping Chu
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引用次数: 1

摘要

在具有多目标路由能力的虫洞星型网络中,我们提出了四种高效的组播路由方案。这四种方案都是基于路径且无死锁的。第一种方案是双路径路由,通过两条独立的路径并行发送消息。第二种是基于快捷节点的数据路径路由,它与双路径路由类似,只是它试图找到一个快捷节点来尽快路由消息,以减少传输路径的长度。第三种是多路径路由,是一种多双路径路由策略,包括源到中继和中继到目的地阶段。最后一种方案是邻近分组路由,它与多路径路由相似,只是在源节点和目的节点的划分步骤中考虑了节点的空间局部性关系,以减少传输路径的长度。实验结果表明,基于单播和传统哈密顿路径路由方案的性能均有显著提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Path-based multicast communication in wormhole-routed star graph multicomputers
In this paper, we propose four efficient multicast routing schemes in wormhole-routed star networks with multidestination routing capability. All of the four proposed schemes are path-based and deadlock-free. The first scheme, dual-path routing, sends the message in parallel through two independent paths. The second one, shortcut-node-based datapath routing, is similar to dual-path routing except that the routing tries to find a shortcut node to route the message as soon as possible to reduce the length of transmission path. The third one, multipath routing, is a multiple dual-path routing strategy that includes source-to-relay and relay-to-destination phases. The last scheme, proximity grouping routing, is similar to multipath routing except that in the partitioning step of source and destination nodes the relation of spatial locality of nodes is also taken into account to reduce the length of transmission paths. Finally, the experimental results are given to show that the performance based on unicast-based and traditional Hamiltonian-path routing schemes can be improved significantly by the four proposed routing schemes respectively.
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