M
Maitreyi Ray Kanjilal
Researcher at Narula Institute of Technology
Publications - 29
Citations - 143
Maitreyi Ray Kanjilal is an academic researcher from Narula Institute of Technology. The author has contributed to research in topics: Quantum dot cellular automaton & Random number generation. The author has an hindex of 5, co-authored 26 publications receiving 78 citations.
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III–V super-lattice SPST/SPMT pin switches for THz communication: theoretical reliability and experimental feasibility studies
TL;DR: In this paper, a physics-based Quantum-Modified CLassical Drift-Diffusion (QMCLDD) non-linear mathematical model has been developed for design and characterisation of GaN/AlGaN asymmetrical superlattice pin based single-pole single-throw (SPST) and singlepole multi-throw(SPMT) switches for sub-MM wave communication systems.
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Design and characterization of asymetrical super-lattice Si/4H-SiC pin photo diode array: a potential opto-sensor for future applications in bio-medical domain
TL;DR: In this article, the authors proposed a novel structure of asymmetrical Si/4H-SiC super-lattice pin diode array for the development of high-sensitive visible light (300-800 nm) sensor on native substrate.
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Area-Delay-Energy aware SRAM memory cell and M × N parallel read/write memory array design for quantum dot cellular automata
TL;DR: This work proposes Efficient VLSI design in terms of Area, Delay, Power and PDP (Power delay product) and reports a delay aware signal distribution methodology applicable for any type of QCA logic circuit design.
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SSTRNG: self starved feedback SRAM based true random number generator using quantum cellular automata
TL;DR: Proposed 8 bit TRNG can be interpreted as a novel contender for security applications due to its 14.82 GHz operating frequency, 0.36 μm 2 area, latency of 1 QCA clock cycle, average power dissipation and high tail probability of NIST test battery report in QCA technology.
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Power analysis attack resistable hardware cryptographical circuit design using reversible logic gate in quantum cellular automata
TL;DR: This paper illustrates a cost-effective, energy-efficient Universal Reversible Logic Gate in QCA framework which is capable of designing power analysis attack resistable hardware cryptographical circuit.