Fast data selection and broadcast on the Butterfly network

[1988] Proceedings. Workshop on the Future Trends of Distributed Computing Systems in the 1990s Pub Date : 1988-09-14 DOI:10.1109/FTDCS.1988.26681

W. Lin, T. Sheu, C. Das, T. Feng, C.-L. Wu

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引用次数: 7

Abstract

A quadtree communication structure is presented, along with two associated procedures for efficient, contention-free data selection and broadcast on the BBN Butterfly parallel processor and its family. the proposed structure suggests a general approach to mapping a class of parallel algorithms with intensive communication requirements for performing two primitive operations: selecting data from many different sources and distributing data from a single source. While performing these two operations through the quadtree structure, the two procedures, ascend and descend, incur no link conflicts in the Butterfly network. By properly merging messages and efficiently replicating data, they can complete required communications in O(log/sub 4/ M) parallel steps, where M is the size of a Butterfly parallel processor. Contraction and stretch of the quadtree communication structure while retaining the conflict-free property, is considered. The contracted and stretched tree structures allow the adaptive balance of computations and communication requirements for various algorithms with different computation/communication ratios.<>

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快速数据选择和广播在蝴蝶网络

提出了一种四叉树通信结构，以及在BBN Butterfly并行处理器及其家族上实现高效、无争用的数据选择和广播的两个相关程序。所提出的结构提出了一种通用的方法来映射一类并行算法，这些算法具有执行两个基本操作的密集通信需求:从许多不同的源选择数据和从单个源分发数据。在通过四叉树结构执行这两个操作时，上升和下降两个过程在Butterfly网络中不会产生链路冲突。通过适当地合并消息和有效地复制数据，它们可以在O(log/sub 4/ M)个并行步骤中完成所需的通信，其中M是Butterfly并行处理器的大小。考虑了四叉树通信结构在保持无冲突特性的情况下的收缩和拉伸。压缩和拉伸的树形结构允许不同计算/通信比率的各种算法的计算和通信需求的自适应平衡。

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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[1988] Proceedings. Workshop on the Future Trends of Distributed Computing Systems in the 1990s

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