Synthesis of nanoelectronic circuits on delay-insensitive cellular arrays

Third IEEE International Workshop on Electronic Design, Test and Applications (DELTA'06) Pub Date : 2006-01-17 DOI:10.1109/DELTA.2006.84
J. Di, D. Vasudevan
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引用次数: 0

Abstract

The difficulties of designing nanoscale circuits include the need for regular circuit structure and controlling the timing requirements. A cellular array has highly regular structure. The cells are adjacent to each other and are able to process signals based on simple transition rules. In delay-insensitive circuits the delay on a signal path does not affect circuit behavior. The combination of delay-insensitive circuit style and cellular arrays makes it possible to implement nanoscale circuits. This paper proposes a technique to synthesize and implement logic functions in Reed-Muller form onto cellular arrays. The resulting circuits have delay-insensitivity and high modularity
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在延迟不敏感细胞阵列上合成纳米电子电路
设计纳米级电路的困难在于需要规则的电路结构和控制时序要求。蜂窝阵列具有高度规则的结构。这些细胞彼此相邻,能够根据简单的转换规则处理信号。在延迟不敏感电路中,信号路径上的延迟不影响电路的行为。延迟不敏感电路和蜂窝阵列的结合使得纳米级电路的实现成为可能。本文提出了一种在元胞阵列上合成和实现Reed-Muller形式逻辑函数的技术。所得到的电路具有延迟不敏感和高模块化
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Third IEEE International Workshop on Electronic Design, Test and Applications (DELTA'06)
Third IEEE International Workshop on Electronic Design, Test and Applications (DELTA'06)
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