OUR FACULTY
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INTERESTS
ProfileWebsite
Ultra Low Power, Adiabatic Logic for Portable Applications, Low Power Application, Subthreshold Logic Design, Radiation Effects on ICs, Design and Development of 6T FinFET Based Rad Hard SRAM Cell, Novel Semiconductor Devices, FinFETs, PDSOI, FDSOI, Nanoelectronics, Semiconductor Device Modelling
INTERESTS
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Micro (Nano) Electronic Devices: Electrical Characterization and Modeling of Semiconductor Devices, Non-Volatile Memories, Advanced MOSFET Reliability, MOS Device Fabrication, MEMS: Electro-mechanical Switches, Device Failure Mechanism, Photonics: Semiconductor Photonic Devices, Novel Photonic Devices
INTERESTS
ProfileWebsite
His invention span from novel interconnect structures and processes for more scaling, machine learning techniques for predictive failure analytics, high bandwidth, high performance and low power integrated circuits and memories and their usage in hardware accelerators, meant for artificial intelligence applications.
INTERESTS
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High-power Millimeter/THz Wave Engineering, Sources and Allied Components, Metamaterials and Fractals, Application in Planar Antennas, Filters and Microwave Circuits, Soft-computing, Soft-computing in Microwave Domain, Antenna Engineering/MICs, Printed Antennas, Filters and Allied Passive Components
INTERESTS
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Optoelectronics, Quantum Dot-Light Emitting Devices, High efficiency solar cells, Microelectronic Fabrication, Minimizing RF sputtered Al's roughness, Moisture resistant alternative to sapphire, Organic Semiconductors, Fabrication and modeling of organic LEDs and Solar cells
INTERESTS
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Big Data mining, Clustering tendency assessment for high volume, high velocity, & high dimensional data, Big Data mining, Distributed data mining for IoT applications, Smart city and Intelligent transportation, Data driven analysis of transportation problems, Smart city and Intelligent transportation, Hurricane evacuation modeling using social media data
INTERESTS
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Nanoscale Devices and Circuits:, Nanowire MOSFET Modeling and Circuit Design, Memories:, NVM and AI Applications, 3D NAND, nanoscale DRAM, MEMs:, MEMS Based Sensors and Energy Harvesting, Sensors:, CNT Based Sensors, Novel ISFET Devices, Reliability:, CMOS Reliability- BTI, TDDB, Nanofabrication:, Nanoscale CMOS Process and VLSI Technologies
Nagendra P. Pathak
Professor & Head Of DepartmentWebsite
01332-287012
INTERESTS
ProfileWebsite
Integrated Circuits for THz Wireless Communication, Plasmonics, Spoof Plasmonics, Graphene Plasmonics, Dielectric Integrated Guide Based Transceiver for Millimeter Wave/Sub-Millimeter Wave Frequencies, Non-Radiative Dielectric Wave Guides, Dielectric Lens Antenna, Filters, Coupler, Mixer, Oscillator, RF/Microwave Integrated Circuits, Design and development of front end circuits : Filters, Coupler, LNA, Mixers, Oscillators, Non-Invasive RF Sensors, Development of RF sensors for Transportation, Civil, Defense, Agricultural & Medical Applications, Advanced Functional Materials, Ferroelectric and Multiferroic materials for RF applications
INTERESTS
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Power Amplifiers:, Broadband, load modulation, Doherty PA, pulse gate modulation, High Efficient PAs, Switch Mode PAs, Transceiver Design:, All-digital transmitters, Transceivers, Digital control of RF circuits, Transmit/Receive module, Chip Design:, CMOS and GaN MMIC based power amplifiers design, mixed signal design, GaN MMIC based RF Chip design, Modelling:, RF PA Design with Embedding Device Model, Non-linear device modelling, RF measurement, RF Circuits:, Multi-port Networks, Modulators , RF Analog Processing, mixers, LNA, Embedded Design:, FPGA based transceivers for wireless applications, Sensor Integration with IOT:, IOT based pedestrian counting, Cloud centric IOT, Wireless Communication using embedded platforms:, Software defined radio for Wireless communication
INTERESTS
ProfileWebsite
Numerical modeling and simulation of high-speed devices/circuits, computational algorithms for uncertainty quantification, stochastic modeling & reliability analysis, Carbon nanotubes, modeling and simulation of CNT for electronic packaging applications, Modeling of high-speed interconnects, CAD for signal and power integrity analysis, Microwave/RF circuit simulation, numerical algorithms for steady-state, transient, and frequency-domain simulation
INTERESTS
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Development of Radar, Microwave/Millimeter/THz Imaging, Artificial Intelligence, Machine Learning, IoT, Cloud Based Solution, DRONE based Application, AntiDrone, Image Processing/Image Analysis, Image Fusion, Image Enhancement, Satellite Data Based Application for ICT, Microwave and Optical Remote Sensing, Radar Polarimetry and Interferometry, Stealth Technology, Electromagnetic Modeling, EM wave Absorbing Materials
INTERESTS
ProfileWebsite
01332-285313
Wireless Communications, Coding Theory, UWB Communication, Cognitive Radio, Relay Networks
Rajiv Joshi
Distinguished Visiting ProfessorIBM Thomson Watson Research Center in New York
INTERESTS
ProfileWebsite
His invention span from novel interconnect structures and processes for more scaling, machine learning techniques for predictive failure analytics, high bandwidth, high performance and low power integrated circuits and memories and their usage in hardware accelerators, meant for artificial intelligence applications.