Analysis and Verilog-A Modeling of Floating-Gate Transistors Article Swipe

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Verilog Computer science Embedded system Field-programmable gate array

Sayma Nowshin Chowdhury , Matthew Chen , Sahil Shah ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.1109/ojcas.2024.3524363 · OA: W4405933917

Floating-gate transistors provide non-volatile analog storage in standard CMOS processes and are crucial in the development of reconfigurable Systems on Chips (SoCs), programmable analog structures, analog neural networks, and mixed-signal neuromorphic circuits. Designing and fabricating these circuits typically involves extensive SPICE-based simulations, yet integrating and calibrating floating-gate transistors post-fabrication is a common practice. To bridge this gap, we present a Verilog-A model based on empirical measurements for a floating-gate transistor fabricated using a 65 nm CMOS process. This model incorporates mechanisms for hot-electron injection and Fowler-Nordheim tunneling, and accurately predicts retention time, thus facilitating the design of adaptive peripheral circuits. Our findings offer insights into optimizing floating-gate transistors for enhanced programming efficiency and reduced area consumption.