Author
Navin Singhal
Bio: Navin Singhal is an academic researcher from Indian Institute of Technology, Jodhpur. The author has contributed to research in topics: NAND gate & Logic gate. The author has co-authored 1 publications.
Topics: NAND gate, Logic gate, Neuromorphic engineering, CMOS, XNOR gate
Papers
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01 Jan 2019TL;DR: Results show the advantage of neuromorphic approach in terms of re-configurability, power and area when compared to traditional logic gate designs.
Abstract: This paper presents low power and highly tuneable LIF (modified) neuron model and its usage to implement reconfigurable digital logic gate. Simulations are done using Tower Jazz Semiconductor's 180nm technology and UMC 28 nm technology in Cadence virtuoso environment. Results show the advantage of neuromorphic approach in terms of re-configurability, power and area when compared to traditional logic gate designs. Reconfigurable gate performs AND/OR/NAND/NOR/XOR/XNOR. It works for both spiking input as well as DC input (current signal). Power consumption of reconfigurable gate designed using modified LIF is at least 45% less than the power consumption of CMOS gates.