Compact Modeling and SPICE Simulation of GCMO-Based Resistive Switching Devices

Enrique Miranda*, Ville Lahteenlahti, Hannu Huhtinen, Alejandro Schulman, Petriina Paturi

*Autor corresponent d’aquest treball

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4 Cites (Scopus)

Resum

This letter reports a compact behavioral model for the hysteretic conduction characteristics of Al/Gd0.1Ca0.9MnO3 (GCMO)/Au resistive switching devices suitable for SPICE simulations. The devices are nonvolatile, forming-less, compliancefree, and self-rectifying multistate memristive structures which makes them of maximum interest for neuromorphic computing and memory applications. The proposed model relies on two coupled equations, one for the electron transport and a second one for the vacancy displacement. First, the fixed and variable current components that contribute to the total electronic floware identified and modelled. They are tunneling and diode-like conduction with series resistance through the thin sub-oxide layer formed at the GCMO/Al interface in combination with filamentary conduction. Second, thememory equation accounts for the reversiblemovement of vacancies that causes the generation and self-healing of these micro-filaments. Importantly, the proposedmodel considers a novel approach for solving the internal state of the device based on the so-called generalized quasi-static hysteron whose application can be extended to other structures and dynamics in addition to the ones discussed here.copy 2002-2012 IEEE.

Idioma originalEnglish
Pàgines (de-a)285-288
Nombre de pàgines4
RevistaIEEE Transactions on Nanotechnology
Volum21
DOIs
Estat de la publicacióPublicada - 2022

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