Journal ArticleDOI
A majority-logic device using an irreversible single-electron box
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TLDR
The gate device is simple in structure and powerful in terms of implementing digital functions with a small number of devices, which will enable the device to contribute to the development of single-electron integrated circuits.Abstract:
We describe a majority-logic gate device suitable for use in developing single-electron integrated circuits. The device consists of a capacitor array for input summation and an irreversible single-electron box for threshold operation. It accepts three binary inputs and produces a corresponding output, a complementary majority-logic output, by using the change in its tunneling threshold caused by the input signals; it produces a logical 1 output if two or three of the inputs are logical 0 and a logical 0 output if two or three of the inputs are logical 1. We combined several of these gate devices to form subsystems, a shift register and a full adder, and confirmed their operation by computer simulation. The gate device is simple in structure and powerful in terms of implementing digital functions with a small number of devices. These superior features will enable the device to contribute to the development of single-electron integrated circuits.read more
Citations
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Magnonic logic circuits
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A new quantum-dot cellular automata full-adder
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Spin Wave Magnetic NanoFabric: A New Approach to Spin-Based Logic Circuitry
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Spin Wave Magnetic NanoFabric: A New Approach to Spin-based Logic Circuitry
TL;DR: A magnetic nanofabric, which may provide a route to building reconfigurable spin-based logic circuits compatible with conventional electron-based devices, and its ability to realize logic gates with fewer devices than in CMOS-based circuits is described.
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Non-volatile magnonic logic circuits engineering
Alexander Khitun,Kang L. Wang +1 more
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Posted Content
On Quantum Cellular Automata
TL;DR: This work considers an approach to definition of a scheme with "history", valid for quantization both irreversible and reversible classical CA directly using local transition rules, using language of vectors in Hilbert spaces instead of C*-algebras.
Journal ArticleDOI
Majority Gate Networks
S. Amarel,G. Cooke,R. O. Winder +2 more
TL;DR: This paper presents methods for realizing simple threshold functions of n arguments by networks of k-input majority gates, where k≪n.
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