Variability in Resistive Memories

Juan B. Roldán; Enrique Miranda; David Maldonado; Alexey N. Mikhaylov; Nikolay V. Agudov; Alexander A. Dubkov; Maria N. Koryazhkina; Mireia B. González; Marco A. Villena; Samuel Poblador; Mercedes Saludes-Tapia; Rodrigo Picos; Francisco Jiménez-Molinos; Stavros G. Stavrinides; Emili Salvador; Francisco J. Alonso; Francesca Campabadal; Bernardo Spagnolo; Mario Lanza; Leon O. Chua

doi:10.1002/aisy.202200338

Advanced Intelligent Systems (Jun 2023)

Variability in Resistive Memories

Juan B. Roldán,
Enrique Miranda,
David Maldonado,
Alexey N. Mikhaylov,
Nikolay V. Agudov,
Alexander A. Dubkov,
Maria N. Koryazhkina,
Mireia B. González,
Marco A. Villena,
Samuel Poblador,
Mercedes Saludes-Tapia,
Rodrigo Picos,
Francisco Jiménez-Molinos,
Stavros G. Stavrinides,
Emili Salvador,
Francisco J. Alonso,
Francesca Campabadal,
Bernardo Spagnolo,
Mario Lanza,
Leon O. Chua

Affiliations

Juan B. Roldán: Electronics and Computer Technology Department Science Faculty Granada University Avda. Fuente Nueva s/n 18071 Granada Spain
Enrique Miranda: Dept. Enginyeria Electrònica Universitat Autònoma de Barcelona 08193 Cerdanyola del Vallès Spain
David Maldonado: Electronics and Computer Technology Department Science Faculty Granada University Avda. Fuente Nueva s/n 18071 Granada Spain
Alexey N. Mikhaylov: Laboratory of Stochastic Multistable Systems Lobachevsky University 23 Gagarin prospect Nizhny Novgorod 603022 Russia
Nikolay V. Agudov: Laboratory of Stochastic Multistable Systems Lobachevsky University 23 Gagarin prospect Nizhny Novgorod 603022 Russia
Alexander A. Dubkov: Laboratory of Stochastic Multistable Systems Lobachevsky University 23 Gagarin prospect Nizhny Novgorod 603022 Russia
Maria N. Koryazhkina: Laboratory of Stochastic Multistable Systems Lobachevsky University 23 Gagarin prospect Nizhny Novgorod 603022 Russia
Mireia B. González: Institut de Microelectrònica de Barcelona IMB-CNM (CSIC) Carrer dels Til·lers, s/n. Campus UAB 08193 Bellaterra Spain
Marco A. Villena: Physical Science and Engineering Division King Abdullah University of Science and Technology (KAUST) Thuwal 23955-6900 Saudi Arabia
Samuel Poblador: Institut de Microelectrònica de Barcelona IMB-CNM (CSIC) Carrer dels Til·lers, s/n. Campus UAB 08193 Bellaterra Spain
Mercedes Saludes-Tapia: Institut de Microelectrònica de Barcelona IMB-CNM (CSIC) Carrer dels Til·lers, s/n. Campus UAB 08193 Bellaterra Spain
Rodrigo Picos: Industrial Engineering and Construction Department University of Balearic Islands 07122 Balearic Islands Spain
Francisco Jiménez-Molinos: Electronics and Computer Technology Department Science Faculty Granada University Avda. Fuente Nueva s/n 18071 Granada Spain
Stavros G. Stavrinides: School of Science and Technology International Hellenic University 57001 Thessaloniki Greece
Emili Salvador: Dept. Enginyeria Electrònica Universitat Autònoma de Barcelona 08193 Cerdanyola del Vallès Spain
Francisco J. Alonso: Statistics and Operations Research Department Science Faculty Granada University Avda. Fuente Nueva s/n 18071 Granada Spain
Francesca Campabadal: Institut de Microelectrònica de Barcelona IMB-CNM (CSIC) Carrer dels Til·lers, s/n. Campus UAB 08193 Bellaterra Spain
Bernardo Spagnolo: Laboratory of Stochastic Multistable Systems Lobachevsky University 23 Gagarin prospect Nizhny Novgorod 603022 Russia
Mario Lanza: Physical Science and Engineering Division King Abdullah University of Science and Technology (KAUST) Thuwal 23955-6900 Saudi Arabia
Leon O. Chua: Electrical Engineering and Computer Science Department University of California Berkeley CA 94720-1770 USA

DOI: https://doi.org/10.1002/aisy.202200338
Journal volume & issue: Vol. 5, no. 6
pp. n/a – n/a

Abstract

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Resistive memories are outstanding electron devices that have displayed a large potential in a plethora of applications such as nonvolatile data storage, neuromorphic computing, hardware cryptography, etc. Their fabrication control and performance have been notably improved in the last few years to cope with the requirements of massive industrial production. However, the most important hurdle to progress in their development is the so‐called cycle‐to‐cycle variability, which is inherently rooted in the resistive switching mechanism behind the operational principle of these devices. In order to achieve the whole picture, variability must be assessed from different viewpoints going from the experimental characterization to the adequation of modeling and simulation techniques. Herein, special emphasis is put on the modeling part because the accurate representation of the phenomenon is critical for circuit designers. In this respect, a number of approaches are used to the date: stochastic, behavioral, mesoscopic..., each of them covering particular aspects of the electron and ion transport mechanisms occurring within the switching material. These subjects are dealt with in this review, with the aim of presenting the most recent advancements in the treatment of variability in resistive memories.

Published in Advanced Intelligent Systems

ISSN: 2640-4567 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics: Computer engineering. Computer hardware; Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://onlinelibrary.wiley.com/journal/26404567

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