Sanjukta Bhanja
Location: (Tampa Florida)
Personal Research Web Page: http://www.eng.usf.edu/~bhanja
Keywords: Unconventional Computing, Nano-computing, Magnetic Logic Devices, Cellular array, Bayesian Models, Beyond-CMOS computing
Posted on: Wednesday, April 28th, 2010
Broad Research Area: Hardware / Architecture, Other
Research Interests:
The research thrust of the Nano-Computing Research Group, in the department of Electrical Engineering, lies predominantly in modeling, synthesizing, and harnessing the computing promises and logical aspects of innovative nano-devices. Technologies such as sub-45nm CMOS, and Magnetic Logic and memory devices, several flavors of Quantum Cellular Automata (QCA), to name a few, are systems that operate in a novel manner and could have substantial impact on the computing world. We at the NCRG see a significant need to investigate such devices, and therefore, endeavor into several key areas throughout the design automation process, such as model creation, low-high level architecture design, the fabrication of novel nano-devices, and the experimental characterization of those nano-devices. The theoretical foundation of our research framework is graph-based probabilistic models like Bayesian Networks, representing the dependencies in logic that characterizes the physical behavior of the device. We extensively use E-Beam lithography to fabricate our devices and analyze them using AFM, at our University’s Nano-Materials and Nano-Science Research Center (NNRC).
Contact Information:
Email:email obfuscated - click to reveal
:email obfuscated - click to reveal
Phone: (813)9744755
Address:4202 East Fowler Avenue, ENB 118, Tampa, FL-33620
