用于DORGAs的MEMS全息存储器容错分析

D. Seto, Minoru Watanabe
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引用次数: 0

摘要

由于动态重构可以提高可编程门阵列上实现电路的性能,因此对快速动态重构的需求不断增加。这种动态重新配置依赖于两个重要特性:快速重新配置和大量上下文。然而,在当前的vlsi上,快速重构和大量上下文共享一个权衡关系。因此,光学可重构门阵列(ORGAs)的发展解决了这一难题。在此类器件的研究中,本文展示了一种带有MEMS全息存储器的动态ORGA (DORGA)及其容错分析结果。
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Fault tolerance analysis of MEMS holographic memory for DORGAs
Demand for fast dynamic reconfiguration has increased since dynamic reconfiguration can accelerate the performance of implementation circuits on its programmable gate array. Such dynamic reconfiguration is dependent upon two important features: fast reconfiguration and numerous contexts. However, fast reconfiguration and numerous contexts share a tradeoff relation on current VLSIs. Therefore, optically recon-figurable gate arrays (ORGAs) have been developed to resolve this dilemma. Among studies of such devices, this paper presents a demonstration of a dynamic ORGA (DORGA) with a MEMS holographic memory and its fault tolerance analysis results.
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