Email: dnaik@iiitm.ac.in
Phone: +91-9515261801
Experience: Pre-PhD: 3 Years 6 Months and Post-PhD: 1 Years 0 Months*
Address:
Block IV, C- 217, ABV-Indian Institute of Information Technology and Management Gwalior (An institute of National importance, Ministry of Education, Government of India)
Personal Web Page: https://scholar.google.com/citations?user=3CirCqoAAAAJ&hl=en&oi=ao
Dr. Jatoth Deepak Naik is currently serving as an Assistant Professor at the Atal Bihari Vajpayee Indian Institute of Information Technology and Management (ABV-IIITM), Gwalior, India. He earned his Ph.D. in Analog and RFIC Chip Design from Inje University, Gimhae, South Korea, supported by the prestigious Global Korea Scholarship (GKS) and BK21+ Fellowship. His doctoral research focused on the design and analysis of sub-nano-scale wideband front-end amplifier chips for next-generation wireless and biomedical applications.
Dr. Deepak received his M.Tech degree in VLSI Design from the National Institute of Technology Karnataka (NITK), Surathkal, and his B.Tech degree in Electrical and Electronics Engineering from Jawaharlal Nehru Technological University (JNTU), Hyderabad. Before joining ABV-IIITM Gwalior, he worked as a Postdoctoral Researcher at Inje University, South Korea, and he worked with a startup incubated at Indian Institute of Technology Roorkee, India, where he was actively involved in analog/RF chip design, tape-out, and measurement of CMOS integrated circuits.
His research interests include Analog and RFIC Chip Design, Low-Noise Amplifiers, Power Amplifiers, Wideband Front-End Amplifiers, Biomedical and Neural Interface Circuits, Neuromorphic Computing, and Semiconductor Technologies. Dr. Deepak has published more than 20 research papers in reputed SCI/SCIE journals, international conferences, and edited volumes, and is an inventor on multiple patents related to RFIC and biomedical chip architectures.
Dr. Deepak has received several national and international recognitions, including Best Paper and Outstanding Presentation Awards at reputed international conferences. He has extensive hands-on experience with advanced CMOS technology nodes, industry-standard EDA tools such as Cadence Virtuoso and Keysight ADS, and RF/microwave measurement and chip characterization. He continues to actively contribute to teaching, research, and innovation in analog/RF chip design and next-generation wireless communication systems.
|
Degree |
Year |
Subject |
University/Institution |
|
Ph.D |
2025 |
Analog/RFIC Design |
Inje University, South Korea |
|
M.Tech |
2020 |
VLSI Design |
NITK Surathkal, Karnataka |
|
B.Tech |
2014 |
EEE |
JNTU Hyderabad |
Md Tarikul Islam, Aswini Kumar Samantaray, Gorre Pradeep, Jatoth Deepak Naik, Sandeep Kumar, AlaaDdin Al-Shidaifat, Hanjung Song. “FPGA Implementation of an Effective Image Enhancement Algorithm Based on a Novel Daubechies Wavelet Filter Bank”. Circuits Syst Signal Process 44, 365–386 (2025).
Nandini Porika, Jatoth Deepak Naik, Pradeep Gorre, Manishankar Prasad Gupta, Sandeep Kumar, Aladdin Al-shidaifat, Hanjung Song. “Performance Analysis of Novel Graphene Process Low-Noise Amplifier with Multi-stage Stagger-Tuned Approach over D-band”. J Infrared Milli Terahz Waves (2024).
Jatoth Deepak Naik, Pradeep Gorre, Manishankar Prasad Gupta, Sandeep Kumar, Aladdin Al shidaifat, Hanjung Song, “A 28nm CMOS Low-Noise Amplifier with Novel Redundant Noise Cancellation Technique beyond Ultra-Wideband for 6G-Based Wireless Systems” AEU, 2024.
Gupta Manishankar Prasad, Sandeep Kumar, Jatoth Deepak Naik, Pradeep Gorre, and Hanjung Song. "A new design approach of Rat-Race coupler based compact GaN HEMT power amplifier towards flat high efficiency over broadband." AEU-International Journal of Electronics and Communications 178 (2024): 155279.
Akuri Naga Ganesh, Jatoth Deepak Naik, Sandeep Kumar, Hanjung Song, and Asutosh Kar. "An Ultra-low Noise, Highly Compact Implantable 28 nm CMOS Neural Recording Amplifier." Journal of Semiconductor Technology and Science 24, no. 3 (2024): 270-283.
Md Nazmul Haque, Pradeep Gorre, Jatoth Deepak Naik, Sandeep Kumar, Ala'aDdin Al Shidaifat, Hanjung Song, “An artificial bridge circuit approach between two biological neurons using nanoscale topologies towards paralytic disorders” Microelectronics Journal, 2023.
Jatoth Deepak Naik, Pradeep Gorre, Naga Ganesh Akuri, Sandeep Kumar and Hanjung Song, “High-Performance Graphene FET Integrated Front-end Amplifier Using Pseudo- Resistor Technique for Neuro-prosthetic Diagnosis” Biochip journal, Springer-SCI, 2022.
