K. Kaneko, S. Goldta, T. Kishi, Y. Tsue, K. Zaiki, M. Watanabe, T. Mimura, H. Kadota
{"title":"Network-component chip set for a parallel processor system","authors":"K. Kaneko, S. Goldta, T. Kishi, Y. Tsue, K. Zaiki, M. Watanabe, T. Mimura, H. Kadota","doi":"10.1109/VLSIC.1988.1037413","DOIUrl":null,"url":null,"abstract":"Introduction For the past twenty years. parallel processing has been considered a promlslng technlque for hlgh-performance computers of the next generation. Recently. several machlnes wlth parallel architecture have become commercially available. but their performancc Is lower than what has been expected. One of the maJor problems to be solved for a hlgh performancc parallel machlne Is deslgnlng a n efficlent network for transfenlng data between the processor elements (PES). A new network Structure for a parallel processor system. ADENA. has been proposed[ll. which wlll reallze emdent data transmlsslon and hlgh-speed numerical computatlon. In thls paper. two component devlces. a chlp set for bulldlng that network, wlll be descrlhed. The first chip. HM. Is a high-performance bldlrectional Buffer-Memory (FIFO) array. and the second chlp. SRC. Is a data-Send/ReecRc Controller. Two new techniques are used to get a hlgh data-hansfa rate: 11 Metchlng Butfn-Memory status I : empty/rUll I by SRC. 21 C m l t deslgn for a high-speed RFO wlth m m u m readnow-hugh ume. The peak data-transfer rate through these chips is zOMBytes/s for each bus. The structure and the usage of the network are also dlscussed.","PeriodicalId":115887,"journal":{"name":"Symposium 1988 on VLSI Circuits","volume":"42 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Symposium 1988 on VLSI Circuits","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1109/VLSIC.1988.1037413","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 2
Abstract
Introduction For the past twenty years. parallel processing has been considered a promlslng technlque for hlgh-performance computers of the next generation. Recently. several machlnes wlth parallel architecture have become commercially available. but their performancc Is lower than what has been expected. One of the maJor problems to be solved for a hlgh performancc parallel machlne Is deslgnlng a n efficlent network for transfenlng data between the processor elements (PES). A new network Structure for a parallel processor system. ADENA. has been proposed[ll. which wlll reallze emdent data transmlsslon and hlgh-speed numerical computatlon. In thls paper. two component devlces. a chlp set for bulldlng that network, wlll be descrlhed. The first chip. HM. Is a high-performance bldlrectional Buffer-Memory (FIFO) array. and the second chlp. SRC. Is a data-Send/ReecRc Controller. Two new techniques are used to get a hlgh data-hansfa rate: 11 Metchlng Butfn-Memory status I : empty/rUll I by SRC. 21 C m l t deslgn for a high-speed RFO wlth m m u m readnow-hugh ume. The peak data-transfer rate through these chips is zOMBytes/s for each bus. The structure and the usage of the network are also dlscussed.
在过去的二十年里。并行处理已被认为是下一代高性能计算机的一项有待解决的技术。最近。一些机器与lth并行架构已经成为商业可用。但他们的表现低于预期。高性能并行机需要解决的主要问题之一是如何设计一个有效的网络来实现处理器单元之间的数据传输。一种新的并行处理器系统网络结构。阿登纳人。已被提议[1]。实现了实时数据传输和高速数值计算。在这篇论文中。两个组件的设备。我们将描述用于构建该网络的CHLP集。第一个芯片。嗯。是一个高性能的定向缓冲存储器(FIFO)阵列。第二个chlp。SRC。是一个数据发送/ReecRc控制器。采用了两种新技术来获得高数据传输率:11 Metchlng button - memory status I: empty/rUll I by SRC。本文介绍了一种高速RFO的设计方法,该设计方法采用了高速RFO的设计方法。每个总线通过这些芯片的峰值数据传输速率为zOMBytes/s。讨论了网络的结构和使用方法。
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