DESIGN AND IMPLEMENTATION OF EFFICIENT ADDER CIRCUITS USING QUANTUM DOT CELLULAR AUTOMATA (QCA)

Purchase PDF

Published: 2015-11-28

Page: 279-289


FIRDOUS AHMAD *

Department of Electronics and Instrumentation Technology, University of Kashmir, Srinagar- 190006, J&K, India

SHAFIQ MAQBOOL TANTRY

Department of Physics, Degree College Sopore, J&K, India

PEER ZAHOOR AHMAD

Department of Computer Science, University of Kashmir, Srinagar- 190006, J&K, India

*Author to whom correspondence should be addressed.


Abstract

Quantum-dot Cellular Automata (QCA) is a promising alternative to Complementary Metal Oxide Semiconductor (CMOS) technology. Many logical circuits are designed using QCA which consume lower power. Adder circuits are the most frequently-used components in digital circuits. New multilayer approaches have been devised to increase the performance of adder circuits. In this paper, we propose the two new efficient multilayer adder circuits. The proposed adder circuits are well-optimized using three active layers. The proposed design enjoys the features of lesser cell counts, reduced area and lesser clock delays as compared to traditional approaches. Our results clearly demonstrate that the proposed adder circuits are area efficient than previous designs. The proposed designs are suitable to reduce the chip size and can be effectively used to realize more complex logic circuits. By applying this method, ultra low power circuits can be designed for nano-electronics. The correct logical functionalities of presented structures have been authenticated using QCADesigner tool ver. 2.0.3.

Keywords: CMOS, QCA, multilayer, adder, efficient, QCADesigner


How to Cite

AHMAD, F., TANTRY, S. M., & AHMAD, P. Z. (2015). DESIGN AND IMPLEMENTATION OF EFFICIENT ADDER CIRCUITS USING QUANTUM DOT CELLULAR AUTOMATA (QCA). Journal of Basic and Applied Research International, 14(4), 279–289. Retrieved from https://ikprress.org/index.php/JOBARI/article/view/3877