Sougata Das scite author profile

The authors present a novel simulation technique for simulating nanodevices. Single Electronics (SE) is a blessing for both business and academia in the post-CMOS age. Due to SE's inherent drawbacks, including its low gain, unpredictable back ground charge creation, and demand for a very low room temperature during manufacturing, it hasn't yet been decided whether it will be the only mode to replace CMOS. This SE-CMOS hybridization is anticipated to bring about great satisfaction in the development of practical and more dependable nanodevice constructions. The delicate part is that this hybridization necessitates the use of two unique simulators in order to replicate a single model. Unfortunately, this causes hybrid model simulation to be quite difficult. On the other hand, the idea of macro-modeling the hybrid models for the purpose of simulation is in fact beneficial. In this instance, the authors utilized one such macro-model to improvise the hybrid SE model, and a very new SS hybrid SE model is subsequently produced. The majority of the research on hybrid SE that has been published so far supports the use of two different simulators, such as SPICE and SIMON; both are sequentially utilized to simulate one particular model, which ultimately takes a lot of time. The authors take a step ahead in this section by simulating the proposed SS hybrid SE model in MATLAB. They predict that this model may eventually be added to SIMULINK's SIMSCAPE since it is more accurate, less time-consuming, and easier to understand.

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Sougata Das

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