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Design of an Enhanced Reconfigurable Chaotic Oscillator using G4FET-NDR Based Discrete Map

In this paper, a novel chaotic map is introduced usinga voltage controlled negative differential resistance (NDR) circuitcomposed of ann-channel and ap-channel silicon-on-insulator(SOI) four-gate transistor (G4FET). The multiple gates of theG4FET are leveraged to create a discrete chaotic map with threebifurcation parameters. The three tunable parameters are thegain of a transimpedance amplifier (TIA), top-gate voltage ofn-channel G4FET, and top-gate voltage ofp-channel G4FET. Twomethods are proposed for building chaotic oscillators using thisdiscrete map. The effect of altering bifurcation parameters onchaotic operation is illustrated using bifurcation diagrams andLyapunov exponent. A design methodology for building flexibleand reconfigurable logic gate is outlined and the consequentenhancement in functionality space caused by the existence ofthree independent bifurcation parameters is demonstrated andcompared with previous work.

preprint2021arXivOpen access
Md Sakib HasanAysha S. ShantaPartha Sarathi PaulMaisha SadiaMd Badruddoja MajumderGarrett S. Rose
Systems and Controleess.SY
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Open access6 authors2 topics
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Md Sakib HasanAysha S. ShantaPartha Sarathi PaulMaisha SadiaMd Badruddoja MajumderGarrett S. Rose

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