Design of energy-efficient and robust ternary circuits for nanotechnology
Novel high-performance ternary circuits for nanotechnology are presented here. Each of
these carbon nanotube field-effect transistor (CNFET)-based circuits implements all the …
these carbon nanotube field-effect transistor (CNFET)-based circuits implements all the …
Energy-Efficient High-Speed dynamic logic-based One-Trit multiplier in CNTFET technology
The appeal of portable electronics, embedded systems, and other smart devices has been
steadily growing over time. The multi-valued logic (MVL) was primarily introduced to handle …
steadily growing over time. The multi-valued logic (MVL) was primarily introduced to handle …
[HTML][HTML] Towards coplanar quantum-dot cellular automata adders based on efficient three-input XOR gate
Quantum-dot cellular automata (QCA), which is a candidate technology to replace CMOS
technology, promises extra low-power, extremely dense and high-speed structures at a …
technology, promises extra low-power, extremely dense and high-speed structures at a …
Carbon nanotube and resistive random access memory based unbalanced ternary logic gates and basic arithmetic circuits
In this paper, the design of ternary logic gates (standard ternary inverter, ternary NAND,
ternary NOR) based on carbon nanotube field effect transistor (CNTFET) and resistive …
ternary NOR) based on carbon nanotube field effect transistor (CNTFET) and resistive …
Designing a three-level full-adder based on nano-scale quantum dot cellular automata
Some of the vital problems around the conventional CMOS technology are leakage-power
consumption, physical-scalability limits, and short-channel effects. These deficiencies have …
consumption, physical-scalability limits, and short-channel effects. These deficiencies have …
A novel adder circuit design in quantum-dot cellular automata technology
Y Adelnia, A Rezai - International Journal of Theoretical Physics, 2019 - Springer
Abstract Quantum-dot Cell Automata (QCA) technology is a promising alternative technology
for CMOS technology. In this technology, the ultra-dense and low-latency digital circuits are …
for CMOS technology. In this technology, the ultra-dense and low-latency digital circuits are …
[HTML][HTML] Ternary encoder and decoder designs in RRAM and CNTFET technologies
A possible way for the very large scale integration (VLSI) industry to keep up with the pace of
high density, computational capability, and energy efficiency is to look into some …
high density, computational capability, and energy efficiency is to look into some …
Novel efficient adder circuits for quantum-dot cellular automata
Quantum Dot Cellular Automata (QCA) as an emerging nanotechnology can be considered
as a possible successor for the conventional silicon MOSFET technology, in the time to …
as a possible successor for the conventional silicon MOSFET technology, in the time to …
A Hammerstein–Wiener model for single-electron transistors
B dos Santos Pês, E Oroski… - … on Electron Devices, 2018 - ieeexplore.ieee.org
This paper proposes a new dynamic behavior model for single-electron transistors (SETs). A
comprehensive review of modeling techniques and previous models was carried out aiming …
comprehensive review of modeling techniques and previous models was carried out aiming …
Design and analysis of a high-performance CNFET-based Full Adder
This article presents a high-speed and high-performance Carbon Nanotube Field Effect
Transistor (CNFET) based Full Adder cell for low-voltage applications. The proposed Full …
Transistor (CNFET) based Full Adder cell for low-voltage applications. The proposed Full …