An Energy-Aware Nanoscale Design of Reversible Atomic Silicon Based on Miller Algorithm
Loading...
Files
Date
2023
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
IEEE-Inst Electrical Electronics Engineers Inc
Open Access Color
OpenAIRE Downloads
OpenAIRE Views
Abstract
Area overhead and energy consumption continue to dominate the scalability issues of modern digital circuits. In this context, atomic silicon and reversible logic have emerged as suitable alternatives to address both issues. In this article, the authors propose novel nano-scale circuit design with low area and energy overheads using the same. In particular, the authors propose a reversible gate with Miller algorithm and atomic silicon technology. This article is extremely relevant in todays era, when the world is moving toward low area and low energy circuits for use in edge devices.
Description
Keywords
Logic gates, Silicon, Adders, Costs, Capacitance-voltage characteristics, Qubit, Energy consumption, Digital circuits, Scalability, Quantum-Dot, Nanoscale devices, Atomic Silicon, Reversible logic, Simulation, Nanotechnology, Miller algorithm, Quantum-Dot, Flip-flop, Simulation, Full-Adder (FA)
Turkish CoHE Thesis Center URL
Fields of Science
Citation
8
WoS Q
Q3
Scopus Q
Q2
Source
Ieee Design & Test
Volume
40
Issue
5
Start Page
62
End Page
69