Designing an efficient fault tolerance D-latch based on quantum-dot cellular automata nanotechnology
Abstract Recently, Complementary Metal-Oxide-Semiconductor (CMOS) technology is
limited by many barriers such as short channel effects and high power dissipation …
limited by many barriers such as short channel effects and high power dissipation …
Towards multilayer QCA SISO shift register based on efficient D-FF circuits
MN Divshali, A Rezai, A Karimi - International Journal of Theoretical …, 2018 - Springer
Abstract Quantum-dot Cellular Automata (QCA) is a new technology for replacing CMOS
technology at nano-scale dimansion. Shift registers have commonly used circuit in the digital …
technology at nano-scale dimansion. Shift registers have commonly used circuit in the digital …
A cost-aware efficient RAM structure based on quantum-dot cellular automata nanotechnology
Nowadays quantum-dot cellular automata (QCA) as a nanoscale transistor-less device
technology have attained major attention for their prominent features. The circuits …
technology have attained major attention for their prominent features. The circuits …
Robust multiplexer design and analysis using quantum dot cellular automata
Abstract Quantum Dot Cellular Automata (QCA) is an alternate version of the existing
conventional CMOS technology due to its low power intake, faster speed, and smaller size …
conventional CMOS technology due to its low power intake, faster speed, and smaller size …
[PDF][PDF] Energy estimation of QCA circuits: An investigation with multiplexers
Quantum-dot Cellular Automata (QCA) is a rival to complementary-metal-oxide-
semiconductor (CMOS)-based technology and one of the most cutting-edge nano-scale …
semiconductor (CMOS)-based technology and one of the most cutting-edge nano-scale …
[HTML][HTML] Design of 2: 4 and 3: 8 decoder circuit using QCA technology
C Ratna, S Roy, T Pathak, D Ghosh… - Наносистемы: физика …, 2021 - cyberleninka.ru
Quantum Dot Cellular Automata is an emerging technology in the field of nanotechnology
and has the potential to replace the existing CMOS technology. CMOS technology has its …
and has the potential to replace the existing CMOS technology. CMOS technology has its …
QCA with reversible arithmetic and logic unit for nanoelectronics applications
GMS Latha, S Rooban - International Journal of Intelligent Computing …, 2023 - emerald.com
Purpose In this research work, brief quantum-dot cellular automata (QCA) concepts are
discussed through arithmetic and logic units. This work is most useful for nanoelectronic …
discussed through arithmetic and logic units. This work is most useful for nanoelectronic …
An efficient design of fault tolerant reversible multiplexer using QCA technology
Quantum-dot Cellular Automata (QCA) is a modern nano-level based technology that is
considered a replacement for the traditional CMOS technology due to its significant …
considered a replacement for the traditional CMOS technology due to its significant …
High performance 2n:1:2n reversible MUX/DMUX architecture for quantum dot cellular automata
V Bevara, SN Chowdary, BVS Babu… - International Journal of …, 2022 - Wiley Online Library
Abstract Quantum‐dot Cellular Automata (QCA) lead to fundamental changes in nanoscale
technology. It promises small area, low power, & high‐speed structures for digital circuit …
technology. It promises small area, low power, & high‐speed structures for digital circuit …
Design and implementation of cryptographic element with low power dissipation in QCA
SUR Qadri, ZA Bangi, M Tariq Banday… - Nanomaterials and …, 2019 - icevirtuallibrary.com
Quantum dot cellular automata are a unique technology that helps investigators develop
different digital circuits. However, there is a lack of general credence of digital structures …
different digital circuits. However, there is a lack of general credence of digital structures …