Single-Electron Majority Logic Circuits (Special Issue on Technology Challenges for Single Electron Devices)

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概要

• 論文の詳細を見る

• This paper proposes an architecture for circuit construction for developing single-electron integrated circuits based on majority logic. The majority logic gate circuit proposed consists of a capacitor array for input summation and a single-electron inverter for threshold operation. It accepts an odd number of inputs and produces the corresponding output on the basis of the principle of majority decision; it produces an output of logic "1" if the majority of the inputs is 1, and an output of "0" if the majority is 0. By combining the proposed majority gate circuits, various subsystems can be constructed with a smaller number of devices than that of Boolean-based construction. An adder and a parity generator are designed as examples. It is shown by computer simulation that the designed subsystems produce the correct logic operations. The operation error induced by thermal agitation is also estimated.

• 社団法人電子情報通信学会の論文
• 1998-01-25

著者

• AMEMIYA Yoshihito

  The Faculty of Engineering, Hokkaido University

• Akazawa Masamichi

  The Faculty Of Engineering Hokkaido University

• Amemiya Yoshihito

  The Faculty Of Engineering Hokkaido University

• IWAMURA Hiroki

  The Faculty of Engineering, Hokkaido University

• Iwamura Hiroki

  The Faculty Of Engineering Hokkaido University

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• Single-Electron Majority Logic Circuits (Special Issue on Technology Challenges for Single Electron Devices)
• Analog Computation Using Quantum Structures : A Promising Computation Architecture for Quantum Processors (Special Issue on Quantum Effect Devices and Their Fabrication Technologies)

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