Quantum-Dot Cellular Automata: A Clocked Architecture for High-Speed, Energy-Efficient Molecular Computing

机译：量子点蜂窝自动机：用于高速，节能分子计算的时钟架构

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Quantum-dot cellular automata (QCA) is a non-transistor-based, classical computing paradigm. QCA devices may be implemented using mixed-valence molecules, and logic circuits are formed by laying out ordered arrays of QCA molecules on a substrate. Molecules are locally coupled via the Coulomb field. The molecular circuits can be clocked using an applied perpendicular electric field. A fully-quantum model of field-driven electron transfer (ET) is used to determine the ET rate for specific QCA candidate molecules. The diferrocenyl acetylene (DFA) molecule is taken as an example QCA molecule, and this model indicates DFA may support classical computation at speeds well beyond the GHz range.

机译：量子点蜂窝自动机（QCA）是一种基于非晶体管的经典计算范例。可以使用混合价分子来实现QCA器件，并且通过在基板上布置有序的QCA分子阵列来形成逻辑电路。分子通过库仑场局部耦合。可以使用施加的垂直电场来计时分子电路。现场驱动电子转移（ET）的全量子模型用于确定特异性QCA候选分子的ET率。将Dirercenyl乙炔（DFA）分子作为实例QCA分子，并且该模型表示DFA可以在远超过GHz范围的速度下支持经典计算。

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《International Conference on Unconventional Computation and Natural Computation》|2017年|219p|共13页
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作者
Enrique P. Blair;
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中图分类 TP301.6-53;
关键词
Molecular classical computing; High-speed computing; Beyond-CMOS computing; Energy-efficient computing;

机译：分子古典计算;高速计算;超越CMOS计算;节能计算;

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专利

1. Power dissipation in clocking wires for clocked molecular quantum-dot cellular automata [J] . Enrique P. Blair, Eric Yost, Craig S. Lent Journal of Computational Electronics . 2010,第1期

机译：时钟分子量子点细胞自动机的时钟线中的功耗
2. Analysis of field-driven clocking for molecular quantum-dot cellular automata based circuits [J] . F. Karim, K. Walus, A. Ivanov Journal of Computational Electronics . 2010,第1期

机译：基于分子量子点细胞自动机的电路的场驱动时钟分析
3. A novel power-efficient high-speed clock management unit using quantum-dot cellular automata [J] . Abutaleb M. M. Journal of nanoparticle research: An interdisciplinary forum for nanoscale science and technology . 2017,第4期

机译：一种新型高效高速时钟管理单元，使用量子点蜂窝自动机
4. Quantum-Dot Cellular Automata: A Clocked Architecture for High-Speed, Energy-Efficient Molecular Computing [C] . Enrique P. Blair International conference on unconventional computation and natural computation . 2017

机译：量子点元胞自动机：一种用于高速，节能分子计算的钟控架构
5. Ripple Clock Schemes for Quantum-dot Cellular Automata Circuits. [D] . Purohit, Prafull. 2012

机译：量子点元胞自动机电路的纹波时钟方案。
6. Quasi-classical modeling of molecular quantum-dot cellular automata multidriver gates [O] . Ehsan Rahimi, Shahram Mohammad Nejad 2012

机译：分子量子点细胞自动机多驱动器门的准经典建模
7. Limits of adiabatic clocking in quantum-dot cellular automata [O] . Jacob Retallick, Konrad Walus 2020

机译：量子点蜂窝自动机中绝热时钟的限制

Quantum-Dot Cellular Automata: A Clocked Architecture for High-Speed, Energy-Efficient Molecular Computing

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