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      Clock Topologies for Molecular Quantum-Dot Cellular Automata

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      Journal of Low Power Electronics and Applications
      MDPI AG

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          Abstract

          Quantum-dot cellular automata (QCA) is a low-power, non-von-Neumann, general-purpose paradigm for classical computing using transistor-free logic. Here, classical bits are encoded on the charge configuration of individual computing primitives known as “cells.” A cell is a system of quantum dots with a few mobile charges. Device switching occurs through quantum mechanical inter-dot charge tunneling, and devices are interconnected via the electrostatic field. QCA devices are implemented using arrays of QCA cells. A molecular implementation of QCA may support THz-scale clocking or better at room temperature. Molecular QCA may be clocked using an applied electric field, known as a clocking field. A time-varying clocking field may be established using an array of conductors. The clocking field determines the flow of data and calculations. Various arrangements of clocking conductors are laid out, and the resulting electric field is simulated. It is shown that that control of molecular QCA can enable feedback loops, memories, planar circuit crossings, and versatile circuit grids that support feedback and memory, as well as data flow in any of the ordinal grid directions. Logic, interconnect and memory now become indistinguishable, and the von Neumann bottleneck is avoided.

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          Quantum cellular automata

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            On Global Electricity Usage of Communication Technology: Trends to 2030

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              A device architecture for computing with quantum dots

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                Author and article information

                Journal
                Journal of Low Power Electronics and Applications
                JLPEA
                MDPI AG
                2079-9268
                September 2018
                September 08 2018
                : 8
                : 3
                : 31
                Article
                10.3390/jlpea8030031
                4a627188-4b1d-490b-9163-f3b9cb173215
                © 2018

                https://creativecommons.org/licenses/by/4.0/

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