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Atomic Silicon Quantum Dot: A New Designing Paradigm of an Atomic Logic Circuit

Ali Newaz Bahar, Khan A. Wahid, Seyed‐Sajad Ahmadpour, Mohammad Mosleh

2020IEEE Transactions on Nanotechnology39 citationsDOI

Abstract

The recent fabrication progress in logic circuits using atomic-scale silicon dangling bond (DB) makes it a promising candidate for field coupled nanocomputing. Moreover, the use of silicon substrate opens the possibilities to integrate DB circuits with existing infrastructure for the complementary metal-oxide-semiconductors (CMOS) devices. However, this emerging technology is still in its initial stage. This paper presents a T-shape structure to realize logic circuits. In addition, fundamental logic gates, such as, two-input AND, NAND, OR, XOR, and XNOR gates, are reported using the T-shape structure. Besides, a novel three-input majority (Si-DBM3) gate and a three-input XOR (Si-DBX3) gate, based on DB pairs, have been presented. Using the proposed Si-DBX3 and Si-DBM3 logic gates, a Full-adder (FA) is designed. All the logic gates are designed and verified using the SiQAD simulation tool.

Topics & Concepts

XNOR gateLogic gateNAND gateAND-OR-InvertNMOS logicPass transistor logicNOR logicCMOSNAND logicElectronic circuitLogic familyAdderElectronic engineeringResistor–transistor logicComputer scienceLogic synthesisAND gateMaterials scienceTransistorDigital electronicsElectrical engineeringEngineeringVoltageQuantum-Dot Cellular AutomataAdvancements in Semiconductor Devices and Circuit DesignSemiconductor materials and devices
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