Rudraswamy S B

Work place: Dept. of Electronics and Communication Sri Jayachamarajendra College of Engineering Mysore, India

E-mail: rudra.swamy@gmail.com

Website:

Research Interests: Computational Science and Engineering, Computational Engineering, Computer systems and computational processes

Biography

Dr.Rudraswamy S B is working as Associate Professor in the Department of Electronics and Communication Engineering, SJCE, Mysuru. He obtained his Doctorate degree from Indian Institute of Science, Bangalore in 2015. He graduated from Kuvempu University in 2002 and obtained Masters Degree from Visvesvaraya Technological University in 2006. He was a Commonwealth postdoctoral research fellow at University of Manchester, United Kingdom in 2016-17. He also worked as Visiting Professor at Department of Electrical and Computer Engineering, NJIT, New Jersey’s Science and Technology University, USA, 2016. His research work is in the area of Microelectronics and Nanotechnology.

Author Articles
VLSI Implementation of CMOS Full Adders with Low Leakage Power

By Manisha B S Rudraswamy S B

DOI: https://doi.org/10.5815/ijcnis.2018.04.03, Pub. Date: 8 Apr. 2018

In this paper, we present two different methods to implement 1-bit full adder namely MTJ based full adder design also called MFA and Lector method based full adder design. These adders are designed and implemented using CADENCE Design Suite 6.1.6 Virtuoso ADE. The implemented design is verified using CADENCE ASSURA. The performance is measured for 45nm technology and a comparative analysis of transistor count; delay and power of the adders were performed. When compared with the previous MFA the proposed MFA overcomes the SEU error which is a result of body biasing. In Lector technique the transistor density is reduced by implementing the sum logic in terms of carry thus reducing the area. In order to attain the complete logic levels buffers are introduced at the sum and carry outputs of both Lector and MFA. The Lector method uses less number of transistors when compared with proposed MFA, but the proposed MFA is efficient because it achieves minimum power dissipation when compared to the Lector method.

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