An Optimized SPICE-Compatible Positive Feedback Model for Ferroelectric Devices: Design, Calibration, and Dynamic Simulations

Nicolas Villegas; Joaquin Carvajal; Shumiya Alam; Tanvir Pantha; Cristobal Maggi; Jaime Cisternas; Kai Ni; Sourav Dutta; Jorge Gomez

doi:10.1109/TED.2025.3574704

An Optimized SPICE-Compatible Positive Feedback Model for Ferroelectric Devices: Design, Calibration, and Dynamic Simulations

Nicolas Villegas
, Joaquin Carvajal
, Shumiya Alam
, Tanvir Pantha
, Cristobal Maggi
, Jaime Cisternas
, Kai Ni
, Sourav Dutta
, Jorge Gomez^*

^*Autor correspondiente de este trabajo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

1 Cita (Scopus)

Resumen

In this work, we present and make openly available an optimized SPICE-compatible Landau-Khalatnikov (L-K) equivalent ferroelectric model. The proposed model maps L-K equations to a positive feedback (PF) loop, providing an intuitive and efficient pathway for direct implementation in SPICE, enabling direct integration with other circuital components within circuit simulations. Furthermore, the model parameters are directly mapped to experimentally accessible values, enabling a straightforward calibration of the static and dynamic behavior. Using the model on SPICE simulations, we can accurately replicate and provide insights of complex system interaction phenomena such as the dynamics of ferroelectric oscillators.

Idioma original	Inglés
Páginas (desde-hasta)	4070-4076
Número de páginas	7
Publicación	IEEE Transactions on Electron Devices
Volumen	72
N.º	8
DOI	https://doi.org/10.1109/TED.2025.3574704
Estado	Publicada - 2025

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© 1963-2012 IEEE.

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title = "An Optimized SPICE-Compatible Positive Feedback Model for Ferroelectric Devices: Design, Calibration, and Dynamic Simulations",

abstract = "In this work, we present and make openly available an optimized SPICE-compatible Landau-Khalatnikov (L-K) equivalent ferroelectric model. The proposed model maps L-K equations to a positive feedback (PF) loop, providing an intuitive and efficient pathway for direct implementation in SPICE, enabling direct integration with other circuital components within circuit simulations. Furthermore, the model parameters are directly mapped to experimentally accessible values, enabling a straightforward calibration of the static and dynamic behavior. Using the model on SPICE simulations, we can accurately replicate and provide insights of complex system interaction phenomena such as the dynamics of ferroelectric oscillators.",

keywords = "Circuit-compatible models, Landau–Khalatnikov (L–K), coupled oscillators, device modeling, ferroelectric memory, negative capacitance",

author = "Nicolas Villegas and Joaquin Carvajal and Shumiya Alam and Tanvir Pantha and Cristobal Maggi and Jaime Cisternas and Kai Ni and Sourav Dutta and Jorge Gomez",

note = "Publisher Copyright: {\textcopyright} 1963-2012 IEEE.",

year = "2025",

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T2 - Design, Calibration, and Dynamic Simulations

AU - Villegas, Nicolas

AU - Carvajal, Joaquin

AU - Alam, Shumiya

AU - Pantha, Tanvir

AU - Maggi, Cristobal

AU - Cisternas, Jaime

AU - Ni, Kai

AU - Dutta, Sourav

AU - Gomez, Jorge

PY - 2025

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AB - In this work, we present and make openly available an optimized SPICE-compatible Landau-Khalatnikov (L-K) equivalent ferroelectric model. The proposed model maps L-K equations to a positive feedback (PF) loop, providing an intuitive and efficient pathway for direct implementation in SPICE, enabling direct integration with other circuital components within circuit simulations. Furthermore, the model parameters are directly mapped to experimentally accessible values, enabling a straightforward calibration of the static and dynamic behavior. Using the model on SPICE simulations, we can accurately replicate and provide insights of complex system interaction phenomena such as the dynamics of ferroelectric oscillators.

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KW - Landau–Khalatnikov (L–K)

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KW - device modeling

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KW - negative capacitance

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JO - IEEE Transactions on Electron Devices

JF - IEEE Transactions on Electron Devices

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An Optimized SPICE-Compatible Positive Feedback Model for Ferroelectric Devices: Design, Calibration, and Dynamic Simulations

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