Topologies and technologies for optically interconnected multicomputers using inverted graphs

First International Workshop on Massively Parallel Processing Using Optical Interconnections Pub Date : 1994-04-26 DOI:10.1109/MPPOI.1994.336619
R. Chamberlain, R. Krchnavek
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引用次数: 4

Abstract

To successfully exploit the benefits of optical technology in a tightly-coupled multicomputer, the architectural design must reflect both the advantages of optics and the limitations of optics. The authors describe a class of such architectures, based upon inverted graph topologies. Two instances of this class (an inverted hypercube and an inverted mesh) are further explored to illustrate their properties. They then consider the physical construction of these systems, demonstrating the relevant technological components necessary to manufacture a working system.<>
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使用倒立图的光互连多计算机的拓扑和技术
为了在紧密耦合的多计算机中成功地利用光学技术的优势,架构设计必须同时反映光学的优点和局限性。作者描述了一类这样的架构,基于倒立图拓扑。这类的两个实例(一个倒立超立方体和一个倒立网格)将进一步探讨以说明它们的属性。然后,他们考虑这些系统的物理结构,展示制造一个工作系统所必需的相关技术组件。
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First International Workshop on Massively Parallel Processing Using Optical Interconnections
First International Workshop on Massively Parallel Processing Using Optical Interconnections
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Fabrication issues for free-space optics at the board packaging level Optical interprocessor communication protocols Massively parallel processing: optical interconnects according to a system to device approach Optical interconnection and massively parallel processing Topologies and technologies for optically interconnected multicomputers using inverted graphs
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