Paired 2-disjoint path covers of k-ary n-cubes under the partitioned edge fault model

IF 3.4 3区 计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS
Hongbin Zhuang , Xiao-Yan Li , Jou-Ming Chang , Ximeng Liu
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引用次数: 0

Abstract

The k-ary n-cube Qnk serves as an indispensable interconnection network in the design of data center networks, network-on-chips, and parallel computing systems since it possesses numerous attractive properties. In these parallel architectures, the paired (or unpaired) many-to-many m-disjoint path cover (m-DPC) plays a significant role in message transmission. Nevertheless, the construction of m-DPC is severely obstructed by large-scale edge faults due to the rapid growth of the system scale. In this paper, we investigate the existence of paired 2-DPC in Qnk under the partitioned edge fault (PEF) model, which is a novel fault model for enhancing the networks' fault-tolerance related to path embedding problem. We exploit this model to evaluate the edge fault-tolerance of Qnk when a paired 2-DPC is embedded into Qnk. Compared to the other known works, our results can help Qnk to achieve large-scale edge fault-tolerance.

分区边缘断层模型下 k-ary n 立方体的成对 2-disjoint 路径盖
k-ary n立方体 Qnk 是数据中心网络、片上网络和并行计算系统设计中不可或缺的互连网络,因为它具有许多吸引人的特性。在这些并行架构中,配对(或非配对)多对多 m-disjoint path cover(m-DPC)在信息传输中发挥着重要作用。然而,由于系统规模的快速增长,大规模边缘故障严重阻碍了 m-DPC 的构建。在本文中,我们研究了 Qnk 中分区边缘故障(PEF)模型下成对 2-DPC 的存在性,PEF 是一种新的故障模型,用于增强与路径嵌入问题相关的网络容错性。我们利用这一模型来评估 Qnk 中嵌入成对 2-DPC 时的边缘容错性。与其他已知工作相比,我们的结果有助于 Qnk 实现大规模边缘容错。
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来源期刊
Journal of Parallel and Distributed Computing
Journal of Parallel and Distributed Computing 工程技术-计算机:理论方法
CiteScore
10.30
自引率
2.60%
发文量
172
审稿时长
12 months
期刊介绍: This international journal is directed to researchers, engineers, educators, managers, programmers, and users of computers who have particular interests in parallel processing and/or distributed computing. The Journal of Parallel and Distributed Computing publishes original research papers and timely review articles on the theory, design, evaluation, and use of parallel and/or distributed computing systems. The journal also features special issues on these topics; again covering the full range from the design to the use of our targeted systems.
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