Designing efficient QCA logical circuits with power dissipation analysis
Recently reported QCA logical and arithmetic designs have completely disregarded the
power consumption issue of the circuits. In this paper, a comprehensive power dissipation …
power consumption issue of the circuits. In this paper, a comprehensive power dissipation …
A universal method for designing low‐power carbon nanotube FET‐based multiple‐valued logic circuits
MH Moaiyeri, RF Mirzaee… - IET Computers & …, 2013 - Wiley Online Library
This study presents new low‐power multiple‐valued logic (MVL) circuits for nanoelectronics.
These carbon nanotube field effect transistor (FET)(CNTFET)‐based MVL circuits are …
These carbon nanotube field effect transistor (FET)(CNTFET)‐based MVL circuits are …
Design of an Efficient N × N Butterfly Switching Network in Quantum-Dot Cellular Automata (QCA)
Quantum-dot cellular automata (QCA) is a rapidly growing nanotechnology very well suited
for designing ultra-dense, low-power, and high-performance digital circuits. In parallel …
for designing ultra-dense, low-power, and high-performance digital circuits. In parallel …
[HTML][HTML] An efficient ternary serial adder based on carbon nanotube FETs
MH Moaiyeri, M Nasiri, N Khastoo - Engineering Science and Technology …, 2016 - Elsevier
This paper presents an efficient ternary serial adder for nanotechnology employing negative,
positive and standard ternary logics. Multiple-valued logic results in chips with more density …
positive and standard ternary logics. Multiple-valued logic results in chips with more density …
Design and evaluation of CNFET-based quaternary circuits
This paper presents novel high-performance and PVT tolerant quaternary logic circuits as
well as efficient quaternary arithmetic circuits for nanoelectronics. These Carbon Nanotube …
well as efficient quaternary arithmetic circuits for nanoelectronics. These Carbon Nanotube …
[PDF][PDF] A novel architecture for quantum-dot cellular automata multiplexer
Abstract Quantum-dot Cellular Automata (QCA) technology is attractive due to its low power
consumption, fast speed and small dimension; therefore it is a promising alternative to …
consumption, fast speed and small dimension; therefore it is a promising alternative to …
Nanorouter: a quantum-dot cellular automata design
We present NanoRouter, a new router architecture implemented as a quantum-dot cellular
automata (QCA). A router is a key component in the Internet core. It allows packets to be …
automata (QCA). A router is a key component in the Internet core. It allows packets to be …
Robust serial nanocommunication with QCA
DS Silva, LHB Sardinha, MAM Vieira… - IEEE Transactions …, 2015 - ieeexplore.ieee.org
We present a serial communication system implemented as quantum-dot cellular automata
(QCA). QCA is a promising alternative to the current CMOS technology. It can be …
(QCA). QCA is a promising alternative to the current CMOS technology. It can be …
[HTML][HTML] Design and evaluation of energy-efficient carbon nanotube FET-based quaternary minimum and maximum circuits
This article presents energy-efficient quaternary minimum and maximum logic circuits based
on carbon nanotube field-effect transistor (CNTFET). The specific features of CNTFET, such …
on carbon nanotube field-effect transistor (CNTFET). The specific features of CNTFET, such …
An energy-efficient full adder cell using CNFET technology
MR Reshadinezhad, MH Moaiyeri… - IEICE transactions on …, 2012 - search.ieice.org
The reduction in the gate length of the current devices to 65 nm causes their IV
characteristics to depart from the traditional MOSFETs. As a result, manufacturing of new …
characteristics to depart from the traditional MOSFETs. As a result, manufacturing of new …