Energy reduction opportunities in Field-Coupled Nanocomputing Adders

机译：现场耦合纳米计算加法器的节能机会

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According to the International Roadmap for Devices and Systems, Field-Coupled Nanocomputing devices and reversible computing techniques are promising topics in a beyond CMOS scenario. In this work, we investigate the application of both subjects in Adders. Precisely, we analyze the energy reduction opportunities in FCN classical Adder’s topologies (i. e., ripple carry, carry lookahead, and carry lookahead block), applying state-of-the-art partially reversible techniques to them. Our goal is to understand the association between the density of connections and logic gates and the achievable fundamental energy limit reduction. We found that, despite the significant differences in depth and size between the topologies, applying the techniques, their fundamental energy limits are almost the same. Moreover, when energy is a critical concern, energy limits could be reduced by up to 54%.

机译：根据《国际设备和系统路线图》，现场耦合纳米计算设备和可逆计算技术是超越CMOS场景的有前途的主题。在这项工作中，我们调查了两个主题在加法器中的应用。精确地，我们分析了FCN经典Adder拓扑（即纹波进位，进位提前和进位提前阻止）中的节能机会，并对其应用了最新的部分可逆技术。我们的目标是了解连接和逻辑门的密度与可实现的基本能量极限降低之间的关联。我们发现，尽管拓扑之间的深度和大小存在显着差异，但应用这些技术后，它们的基本能量限制几乎相同。此外，当能源成为关键问题时，可以将能源限额降低多达54％。

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《Symposium on Integrated Circuits and Systems Design》|2020年|1-6|共6页
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Joao N. C. Fiche; Marco T. D. Sousa; Jeferson F. Chaves; Marco A. Ribeiro; Leandro M. Silva; Luiz F. M. Vieira; Omar P. Vilela Neto;
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Logic gates; Adders; Topology; Entropy; Energy dissipation; Nanoscale devices; Transistors;

机译：逻辑门;加法器;拓扑;熵;耗能;纳米器件;晶体管;

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Energy reduction opportunities in Field-Coupled Nanocomputing Adders

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