Dr. Rutu Parekh did her M. Tech in Electrical Engg. from Concordia University, Montreal, Canada, PhD in Electrical Engg. (Nanoelectronics) from Université de Sherbrooke, Sherbrooke, Canada and as a Postdoctoral fellow at Centre of Excellence in Nanoelectronics, IIT Bombay in 2015. Her research interest includes developing of models, co-design methodology and co-simulation of hybrid circuits of emerging nanoelectronic devices with CMOS technology, low voltage low power circuits, Phase Change Memory, MEMS devices and embedded systems. She has industrial experience with eInfochips, Ahmedabad and HP Karkland, Montreal, Canada, research experience with Ecole Polytechnic, Quebec, Canada, and teaching experience with Nirma University of Science and Technology, Ahmedabad. She is currently working as an Assistant Professor at DA-IICT, Gandhinagar, India. She has published a number of international journal and conference articles related to her research areas. In addition, she has been offering service as an editorial board member for international journal and technical committee member in numerous international conferences. She is also associated with The Inter-University Centre for Astronomy and Astrophysics, Pune, India, as a Visiting Associate.

Nanoelectronics, Microelectronics, Embedded Systems and IOT

• DNA Based Hybrid Circuit Design Approaches, Patel, R. and Parekh, R., IEEE 5th International Conference for Convergence in Technology (I2CT), India, Mar. 29-31, 2019
• Novel Subthreshold Modeling of Advanced On-chip Graphene Interconnect using Numerical Method Analysis, Patel, N., Agrawal, Y. and Parekh, R., IETE Journal of Research, Taylor and Francis, Oct, 2018.
• A Vector File Generation Program for Simulating Single Electron Transistor Based Computing System, Patel, R., Agarwal, Y., Parekh R., IEEE Electron Device Kolkata Conference (IEEE EDKCON), India, 2018.
• Contemporary On-chip System Modeling using FDTD in Low Power Regime, Agrawal, Y., Chandel, R., Girish, M., Parekh, R., IEEE Electrical Design of Advanced Packaging and Systems (EDAPS), 2018, India, December, 2018.
• Preeminent Buffer Insertion Technique For Long Advanced On-Chip Graphene Interconnects, Pathade, T.,Shah, U., Agrawal, Y., Parekh, R., IEEE Electrical Design of Advanced Packaging and Systems (EDAPS), 2018, India, December, 2018.
• Prospective current mode logic for on chip interconnects in integrated circuit design, Agrawal, Y., Chandal, R., Kumar, G., Parekh, R., in book titled: IET VLSI and Post-CMOS Devices, Circuits and Modelling, 2018.
• Design and Implementation of Autonomous UAV Tracking System Using GPS and GPRS, Thakkar, D., Rajput, P., Dubey, R., and Parekh, R., 2nd ICACIE, 2017 – Best Springer paper award in Intelligent Networking Track.
• Modeling and simulation of 1/f noise during threshold switching for Phase Change Memory, Parekh, R., Shojaei, M., and Rajendran, B., Lecture Notes in Electrical Engineering (LNEE), Springer, ICACCP, 2017.
• Noise removing filters and its implementation on FPGA, Mishra, A. and Parekh, R., Lecture Notes in Electrical Engineering (LNEE), Springer, ICACCP, 2017.
• Gargave, Y. Agrawal, R. Parekh, “Single Precision Floating Point Matrix Multiplier using Low Power Arithmetic Circuits”, Lecture Notes in Electrical Engineering (LNEE), 1st Springer International Conference on Emerging Trends and Advances in Electrical Engineering and Renewable Energy (ETAEERE-2016), India, 17 – 18 Dec, 2016. DOI: 10.1007/978-981-10-4394-9_67
• Parekh,J. Beauvais, and D. Drouin, “SET logic driving capability and its enhancement in 3-D integrated SET-CMOS circuit”, Microelectronics Journal, 45, pp. 1087-1092, 2014. DOI: 10.1016/j.mejo.2014.05.020, Citations : 5.
• Parekh, A. Beaumont, J. Beauvais, and D. Drouin, “Simulation and Design Methodology for Hybrid SET-CMOS Integrated Logic at 22-nm Room Temperature Operation”, IEEE Transactions on Electron Devices, Vol. 59, No. 4, pp. 918-923, 2012.DOI: 10.1109/TED.2012.2183374, Citations : 16

• Analog Circuits
• Nanoelectronics
• VLSI Subsystem Design
• CMOS Digital Design
• Computer Organization
• Introduction to Digital Design