<div>In this paper two novel high performance designs for AND and OR basic gates and a novel Full-Adder Cell are presented. These designs are based on carbon nanotube technology. In order to compare the proposed designs with previous ones both MOSFET based and CNFET based circuits are selected. By the way the proposed designs have better performance in comparison with previous designs in terms of speed, power consumption and power-delay product (PDP).</div><div><br></div
CMOS transistors are most widely used for the design of computerized circuits, when scaling down the...
The performance of a semiconducting carbon nanotube (CNT) is assessed and tabulated for parameters a...
A novel full adder circuit is presented. The main aim is to reduce power delay product (PDP) in the ...
In this paper two novel high performance designs for AND and OR basic gates and a novel Full-Adder C...
This paper presents two novel full adder cells based on Carbon Nanotube Field Effect Transistor (CNT...
In this paper, a low-power high-speed hybrid full adder cell is proposed, which is implemented based...
As the physical gate length of current devices is reduced to below 65 nm, effects (such as large par...
The adder circuit is basic component of arithmetic logic design and that is the most important block...
In this article, a low-power and energy-efficient hybrid full adder circuit is proposed, which is im...
Presenting a novel full adder cell will be increases all the arithmetic logic unit performance. In t...
The full adder circuit is one of the most significant and prominent fundamental parts in digital pro...
Full Adder is the basic element for arithmetic operations used in Very Large Scale Integrated (VLSI)...
This paper addresses at first carbon NanoTubes (CNTs) and importance of CNT over silicon based devic...
The full adder is a key component for many digital circuits like microprocessors or digital signal p...
Abstract Carbon Nanotube filed-effect transistor (CNFET) is one of the promising alternatives to the...
CMOS transistors are most widely used for the design of computerized circuits, when scaling down the...
The performance of a semiconducting carbon nanotube (CNT) is assessed and tabulated for parameters a...
A novel full adder circuit is presented. The main aim is to reduce power delay product (PDP) in the ...
In this paper two novel high performance designs for AND and OR basic gates and a novel Full-Adder C...
This paper presents two novel full adder cells based on Carbon Nanotube Field Effect Transistor (CNT...
In this paper, a low-power high-speed hybrid full adder cell is proposed, which is implemented based...
As the physical gate length of current devices is reduced to below 65 nm, effects (such as large par...
The adder circuit is basic component of arithmetic logic design and that is the most important block...
In this article, a low-power and energy-efficient hybrid full adder circuit is proposed, which is im...
Presenting a novel full adder cell will be increases all the arithmetic logic unit performance. In t...
The full adder circuit is one of the most significant and prominent fundamental parts in digital pro...
Full Adder is the basic element for arithmetic operations used in Very Large Scale Integrated (VLSI)...
This paper addresses at first carbon NanoTubes (CNTs) and importance of CNT over silicon based devic...
The full adder is a key component for many digital circuits like microprocessors or digital signal p...
Abstract Carbon Nanotube filed-effect transistor (CNFET) is one of the promising alternatives to the...
CMOS transistors are most widely used for the design of computerized circuits, when scaling down the...
The performance of a semiconducting carbon nanotube (CNT) is assessed and tabulated for parameters a...
A novel full adder circuit is presented. The main aim is to reduce power delay product (PDP) in the ...