Several nanoelectronic devices have been already proved. However, no architecture which makes use of them provides a feasible opportunity to build medium/large systems. Nanoarchitecture proposals only solve a small part of the problems needed to achieve a real design. In this paper, we propose and analyze a cell architecture that overcomes most of those at the gate level. 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. Using this improvement we show that it is possible to reduce the output standard deviation by a factor larger than 2 and restitute the signal levels using nanodevices.
@article{arxiv.0708.1454,
title = {Cell Architecture for Nanoelectronic Design},
author = {F. Martorell and A. Rubio},
journal= {arXiv preprint arXiv:0708.1454},
year = {2007}
}
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