可行纳米电子设计的缺陷和容错单元结构

International Conference on Design and Test of Integrated Systems in Nanoscale Technology, 2006. DTIS 2006. Pub Date : 2006-10-16 DOI:10.1109/DTIS.2006.1708697

F. Martorell, A. Rubio

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引用次数: 6

摘要

一些纳米电子器件已经被证实。然而，没有一种利用它们的体系结构提供了构建中型/大型系统的可行机会。纳米架构建议只能解决实现真正设计所需的一小部分问题。在本文中，我们回顾了纳米结构的两种主要方法，并指出了它们的一些缺点。考虑到这些限制，我们提出并分析了一种克服大多数限制的单元结构。该体系结构将纳米器件与MOS技术相结合，定义了一种新的体系结构，能够在实际实现的结构中利用两者的优势。使用单元结构，我们构建了2和3输入NAND门，显示了它们的误差概率。最后，我们概述了一种利用纳米器件之间的干扰进一步提高结构容差的方法

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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Defect and fault tolerant cell architecture for feasible nanoelectronic designs

Several nanoelectronic devices have been already proved. However, no architecture which makes use of them provides a feasible opportunity to build a medium/large system. Nanoarchitecture proposals only solve a small part or the problems needed to achieve a real design. In this paper we review the two main approaches to nanoarchitectures showing some of their shortcomings. Taking into account these limitations, we propose and analyze a cell architecture that overcomes most of them. This architecture combines nanodevices with MOS technology to define a new architecture able to take advantage of both of them in a structure feasible for practical implementation. Using the cell structure we build 2 and 3-input NAND gates showing their error probabilities. Finally, we outline a method to further improve the structure's tolerance by taking advantage of interferences among nanodevices

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International Conference on Design and Test of Integrated Systems in Nanoscale Technology, 2006. DTIS 2006.

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