Carol de Benito scite author profile

Resistive Random Access Memories (RRAMs) are based on resistive switching (RS) operation and exhibit a set of technological features that make them ideal candidates for applications related to non-volatile memories, neuromorphic computing and hardware cryptography. For the full industrial development of these devices different simulation tools and compact models are needed in order to allow computer-aided design, both at the device and circuit levels. Most of the different RRAM models presented so far in the literature deal with temperature effects since the physical mechanisms behind RS are thermally activated; therefore, an exhaustive description of these effects is essential. As far as we know, no revision papers on thermal models have been published yet; and that is why we deal with this issue here. Using the heat equation as the starting point, we describe the details of its numerical solution for a conventional RRAM structure and, later on, present models of different complexity to integrate thermal effects in complete compact models that account for the kinetics of the chemical reactions behind resistive switching and the current calculation. In particular, we have accounted for different conductive filament geometries, operation regimes, filament lateral heat losses, the use of several temperatures to characterize each conductive filament, among other issues. A 3D numerical solution of the heat equation within a complete RRAM simulator was also taken into account. A general memristor model is also formulated accounting for temperature as one of the state variables to describe electron device operation. In addition, to widen the view from different perspectives, we deal with a thermal model contextualized within the quantum point contact formalism. In this manner, the temperature can be accounted for the description of quantum effects in the RRAM charge transport mechanisms. Finally, the thermometry of conducting filaments and the corresponding models considering different dielectric materials are tackled in depth.

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A detailed analysis of GOS defects in MOS transistors: testing implications at circuit level

Segura

Benito

Rubio

et al.

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Exploring resistive switching‐based memristors in the charge–flux domain: A modeling approach

Chawa

Picos

Roldán

et al. 2017

Circuit Theory & Apps

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SUMMARYWe analyzed resistive switching-based memristors by using the charge-flux relations instead of the traditional current-voltage approach. We employed simulated and experimental data to develop a model that can be easily included in circuit simulators. Physical simulations of devices with different conductive filament sizes were employed to fit the 3-parameter model introduced. Later on, the relations between the model parameters and the conductive filament geometrical features were characterized in-depth. In addition, a model to obtain the energy employed in the reset process was presented. Finally, we used the model to estimate the experimental conductive filament radius distribution using a set of 3000 reset cycles.

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Dynamic Critical Resistance: A Timing-Based Critical Resistance Model for Statistical Delay Testing of Nanometer ICs

Rosselló

Benito

Bota

et al. 2007

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A Purely Digital Memristor Emulator based on a Flux-Charge Model

Camps

Chawa

Benito

et al. 2018

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Carol de Benito

On the Thermal Models for Resistive Random Access Memory Circuit Simulation

A detailed analysis of GOS defects in MOS transistors: testing implications at circuit level

Exploring resistive switching‐based memristors in the charge–flux domain: A modeling approach

Dynamic Critical Resistance: A Timing-Based Critical Resistance Model for Statistical Delay Testing of Nanometer ICs

A Purely Digital Memristor Emulator based on a Flux-Charge Model

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