Majority-based logic synthesis for nanometric technologies

14th IEEE International Conference on Nanotechnology Pub Date : 2014-12-01 DOI:10.1109/NANO.2014.6968043

Mayler G. A. Martins, V. Callegaro, F. Marranghello, R. Ribas, A. Reis

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引用次数: 10

Abstract

Majority-based logic has received considerable attention due to emergent technologies that use the majority function as basic operation. As a consequence, the design of digital circuits using the majority-based logic has also been considered. Existing works essentially proposed different cell libraries to be applied in logic synthesis. However, the comparison between different approaches may not be straightforward since distinct circuit synthesis methodologies may be exploited. In order to allow a fair comparison of methodologies of generating quantum cellular automata (QCA) cell libraries and for performing QCA circuit synthesis is presented. The proposed library generation methodology is generic enough so that different basic logic functions can be considered. In addition to previous considered libraries, this work also considers a library comprising all 3-input functions implemented using both majority and AND-OR-Inverter gates. Experimental results compare different QCA libraries, showing that considering different basic gates leads to an average area reduction of up to 47%.

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基于多数的纳米技术逻辑综合

由于使用多数函数作为基本操作的新兴技术，基于多数的逻辑受到了相当大的关注。因此，使用基于多数的逻辑的数字电路的设计也被考虑。现有的工作基本上提出了不同的细胞库应用于逻辑合成。然而，不同方法之间的比较可能不是直截了当的，因为不同的电路合成方法可能被利用。为了允许生成量子元胞自动机(QCA)细胞库和执行QCA电路合成的方法进行公平比较。所建议的库生成方法是通用的，因此可以考虑不同的基本逻辑函数。除了之前考虑的库之外，这项工作还考虑了一个库，该库包括使用多数门和与或逆变器门实现的所有3输入函数。实验结果比较了不同的QCA库，表明考虑不同的基本门导致平均面积减少高达47%。

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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14th IEEE International Conference on Nanotechnology

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