Monolithic 3D Oscillatory Ising Machine using Reconfigurable FeFET Routing for large-scalability and low-power consumption

Joon Pyo Kim; Song-Hyeon Kuk; Hyunwook Kim; Jaeyong Jeong; Juhyuk Park; Bong Ho Kim; Jongmin  Kim; Aida Todri-Sanial; Sanghyeon Kim

doi:10.1002/advs.202413247

Monolithic 3D Oscillatory Ising Machine using Reconfigurable FeFET Routing for large-scalability and low-power consumption

Joon Pyo Kim, Song-Hyeon Kuk, Hyunwook Kim, Jaeyong Jeong, Juhyuk Park, Bong Ho Kim, Jongmin Kim, Aida Todri-Sanial, Sanghyeon Kim (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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Ising machines are attractive for efficiently solving NP-hard combinatorial optimization problems (COPs). In this work, a scalable monolithic-3D (M3D) oscillatory Ising machine (OIM) is proposed using ferroelectric field-effect transistors (FeFETs) serving as an in-memory routing switch (RS) and bi-stable resistor (biristor)-based oscillators for the first time. The M3D OIM achieves low static power consumption while offering high reconfigurability. Through careful control of FeFET routing switches, weights of the Ising model are embedded in coupled biristors. The performance is validated through simulations and experiments, in successfully solving King's graph sub-problems and the MaxCUT problem. By leveraging the intrinsic OIM features of parallel computing together with M3D integration, it is reported that the M3D OIM outperforms reported OIMs in scalability and speed. Such an approach provides new insights and significant potential for solving COPs.

Originele taal-2	Engels
Tijdschrift	Advanced Science
Volume	XX
Nummer van het tijdschrift	X
Vroegere onlinedatum	16 mrt. 2025
DOI's	https://doi.org/10.1002/advs.202413247
Status	E-publicatie vóór gedrukte publicatie - 16 mrt. 2025

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10.1002/advs.202413247

AdvSci_M3DOIM_mainarticle_clean_finalFinale auteursversie , 1,74 MB

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THERMODON: Thermodynamic-inspired computing with oscillatory neural networks
Todri-Sanial, A. (Project Manager), Sbravati, F. (Projectmedewerker), Verest, J. (Projectmedewerker), Vacancy PD (Projectmedewerker), Vacancy PHD (Projectmedewerker), Dinc, N. (Projectmedewerker), Vacancy 10 (Projectmedewerker) & Mazumder, A. (Projectmedewerker)
1/05/24 → 30/04/29
Project: Third tier
NGF.1607.22.016 AI-on-ONN Online Learning for Sense-to-Compute Edge AI with Oscillatory Neural Networks
Todri-Sanial, A. (Project Manager), Kim, H. (Projectmedewerker), Haverkort, B. F. (Projectmedewerker) & Vacancy PHD (Projectmedewerker)
28/03/24 → 28/03/29
Project: Second tier

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title = "Monolithic 3D Oscillatory Ising Machine using Reconfigurable FeFET Routing for large-scalability and low-power consumption",

abstract = "Ising machines are attractive for efficiently solving NP-hard combinatorial optimization problems (COPs). In this work, a scalable monolithic-3D (M3D) oscillatory Ising machine (OIM) is proposed using ferroelectric field-effect transistors (FeFETs) serving as an in-memory routing switch (RS) and bi-stable resistor (biristor)-based oscillators for the first time. The M3D OIM achieves low static power consumption while offering high reconfigurability. Through careful control of FeFET routing switches, weights of the Ising model are embedded in coupled biristors. The performance is validated through simulations and experiments, in successfully solving King's graph sub-problems and the MaxCUT problem. By leveraging the intrinsic OIM features of parallel computing together with M3D integration, it is reported that the M3D OIM outperforms reported OIMs in scalability and speed. Such an approach provides new insights and significant potential for solving COPs.",

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AU - Kim, Joon Pyo

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AU - Jeong, Jaeyong

AU - Park, Juhyuk

AU - Kim, Bong Ho

AU - Kim, Jongmin

AU - Todri-Sanial, Aida

AU - Kim, Sanghyeon

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Y1 - 2025/3/16

N2 - Ising machines are attractive for efficiently solving NP-hard combinatorial optimization problems (COPs). In this work, a scalable monolithic-3D (M3D) oscillatory Ising machine (OIM) is proposed using ferroelectric field-effect transistors (FeFETs) serving as an in-memory routing switch (RS) and bi-stable resistor (biristor)-based oscillators for the first time. The M3D OIM achieves low static power consumption while offering high reconfigurability. Through careful control of FeFET routing switches, weights of the Ising model are embedded in coupled biristors. The performance is validated through simulations and experiments, in successfully solving King's graph sub-problems and the MaxCUT problem. By leveraging the intrinsic OIM features of parallel computing together with M3D integration, it is reported that the M3D OIM outperforms reported OIMs in scalability and speed. Such an approach provides new insights and significant potential for solving COPs.

AB - Ising machines are attractive for efficiently solving NP-hard combinatorial optimization problems (COPs). In this work, a scalable monolithic-3D (M3D) oscillatory Ising machine (OIM) is proposed using ferroelectric field-effect transistors (FeFETs) serving as an in-memory routing switch (RS) and bi-stable resistor (biristor)-based oscillators for the first time. The M3D OIM achieves low static power consumption while offering high reconfigurability. Through careful control of FeFET routing switches, weights of the Ising model are embedded in coupled biristors. The performance is validated through simulations and experiments, in successfully solving King's graph sub-problems and the MaxCUT problem. By leveraging the intrinsic OIM features of parallel computing together with M3D integration, it is reported that the M3D OIM outperforms reported OIMs in scalability and speed. Such an approach provides new insights and significant potential for solving COPs.

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Monolithic 3D Oscillatory Ising Machine using Reconfigurable FeFET Routing for large-scalability and low-power consumption

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THERMODON: Thermodynamic-inspired computing with oscillatory neural networks

NGF.1607.22.016 AI-on-ONN Online Learning for Sense-to-Compute Edge AI with Oscillatory Neural Networks

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