研讨会——自适应伊辛机：结合振荡动力学与概率采样的新范式

seminar – Adaptive Ising Machines: a paradigm combining oscillatory dynamics and probabilistic sampling

Spintec News by Alain Marty 2026-01-12 12:10 Original

摘要
2026年1月28日，意大利墨西拿大学的IEEE纳米技术理事会杰出讲师Giovanni Finocchio将在法国SPINTEC研究所举办研讨会，主题为“自适应伊辛机：结合振荡动力学与概率采样的新范式”。他将介绍如何利用自旋电子技术实现伊辛机，并首次提出能动态切换确定性与概率计算模式的自适应硬件平台，该研究由欧盟及意大利多个项目资助，旨在为组合优化问题提供可扩展的CMOS兼容解决方案。

学术讲座：自适应伊辛机——结合振荡动力学与概率采样的新范式

2026年1月28日，意大利墨西拿大学杰出学者、IEEE纳米技术理事会特聘讲师Giovanni Finocchio教授将到访SPINTEC实验室，并于下午14:00举行学术讲座，主题为“自适应伊辛机：结合振荡动力学与概率采样的新范式”。

讲座详情：

地点： 法国格勒诺布尔CEA园区10.05号楼445号报告厅（现场参会需提前申请准入许可，须于1月17日前联系 admin.spintec@cea.fr）
线上参会： Zoom会议链接：https://univ-grenoble-alpes-fr.zoom.us/j/98769867024?pwd=dXNnT3RMeThjYStybGVQSUN0TVdJdz09
会议ID： 987 6986 7024
密码： 025918

内容摘要：

讲座第一部分将聚焦概率计算，这是实现伊辛机的一种路径。概率计算使用概率比特（p-bit）作为基本单元，其特性介于经典比特与量子比特之间。Finocchio教授将阐述如何将复杂的组合优化问题（如Max-Sat、Max-Cut等）映射到伊辛机模型，并介绍利用自旋电子技术实现这些模型的方案。此外，他将探讨该领域的新方向，包括扩展概率变量（如p-dit和p-int）的概念。

第二部分将讨论振荡伊辛机动力学，旨在引入自适应伊辛机的概念。为此，教授将首先阐述在双谐波信号（其频率成分接近振荡器自由运行频率的单倍与双倍）驱动下，受噪声影响的相位自振荡器的通用理论，展示如何通过调整驱动信号的相对振幅和频率，连续调节确定性锁相与随机性相位滑移。随后，他将重点介绍如何利用自旋扭矩纳米振荡器实现确定性计算、概率计算，以及自适应伊辛机的双模运行——即通过精确调控噪声强度与双谐波激励，在同一硬件平台上动态结合两种计算模式。

通过对不同类型组合优化问题的基准测试，这种协同伊辛机展现出与振荡伊辛机和概率伊辛机互补的性能，并能适应特定问题类别。此项工作首次提出了能够在确定性与概率计算之间切换的基于振荡器的伊辛机，为开发可扩展、CMOS兼容的混合优化与推理硬件开辟了新路径。

项目支持：

本研究得到了以下项目资助：欧盟“地平线欧洲”计划项目SWAN-on-chip（编号101070287）、意大利大学与研究部PRIN 2020项目（编号2020LWPKH7）、PETASPIN协会（www.petaspin.com），以及通过MUR-PNRR项目SAMOTHRACE（ECS00000022）提供的欧盟下一代欧盟资金。

主讲人简介：

Giovanni Finocchio于2005年在墨西拿大学获得光电子、光子与电磁建模先进技术博士学位，现任该校数学、计算机、物理与地球科学系全职教授，并担任PETASPIN实验室（Petascale计算与自旋电子学）主任。其研究领域涵盖自旋电子学、斯格明子及非常规计算。近十年来，他在多个国际会议技术程序委员会任职，并作为主席、程序委员等组织了十余场国际会议与研讨会，包括担任IEEE NANO 2024程序主席和2025年联合Intermag-MMM会议联席程序主席。他常受邀出席磁学与自旋电子学领域重要会议，并组织了首届伊辛机国际会议。此外，他还担任PETASPIN协会主席、IEEE磁学学会前AdCOM成员（2019-2024）、IEEE纳米技术理事会量子/神经形态/非常规计算技术委员会主席、IEEE意大利磁学分会前主席（2019-2022），并获选为2026-2027年度IEEE纳米技术理事会特聘讲师。自2022年起，他兼任《物理评论应用》副编辑。

Summary
On January 28, 2026, Professor Giovanni Finocchio from the University of Messina will present a seminar at SPINTEC in Grenoble on "Adaptive Ising Machines." His talk will introduce a novel hardware platform that combines oscillatory dynamics and probabilistic sampling to solve complex optimization problems, representing a significant advancement in spintronics-based computing. The research, supported by EU and Italian grants, aims to develop scalable, CMOS-compatible technology for hybrid optimization and inference.

Seminar Announcement: IEEE Distinguished Lecturer to Present on Adaptive Ising Machines

SPINTEC will host a seminar on January 28, 2026, featuring Giovanni Finocchio, a Distinguished Lecturer of the IEEE Nanotechnology Council and a full professor at the University of Messina, Italy. The talk, titled "Adaptive Ising Machines: a paradigm combining oscillatory dynamics and probabilistic sampling," will be held at 14:00.

Event Details:

* Location: IRIG/SPINTEC, auditorium 445, CEA Building 10.05 in Grenoble. *Note:* On-site access requires prior entry authorization; requests must be submitted to admin.spintec@cea.fr before January 17, 2026.

* Online Access: The seminar will be streamed via Zoom.

* Link: [https://univ-grenoble-alpes-fr.zoom.us/j/98769867024?pwd=dXNnT3RMeThjYStybGVQSUN0TVdJdz09](https://univ-grenoble-alpes-fr.zoom.us/j/98769867024?pwd=dXNnT3RMeThjYStybGVQSUN0TVdJdz09)

* Meeting ID: 987 6986 7024

* Passcode: 025918

Seminar Abstract:

The presentation will explore two converging pathways for building Ising Machines—hardware systems designed to solve complex combinatorial optimization problems.

1. Probabilistic Computing: The first part will focus on a computational paradigm using probabilistic bits (p-bits), which occupy a middle ground between classical bits and quantum bits (qubits). Professor Finocchio will explain how to map hard problems like Max-Sat and Max-Cut into an Ising model and implement them using spintronic technology. He will also introduce new research directions involving extended probabilistic variables, such as p-dits and p-ints.

2. Oscillatory Dynamics & Adaptive Ising Machines: The second part will shift to oscillatory Ising Machines, leading to the core concept of Adaptive Ising Machines (CoIM). The talk will cover:

* A universal theory of phase auto-oscillators driven by a bi-harmonic signal, demonstrating how deterministic phase locking and stochastic phase slips can be tuned by adjusting the drive's parameters.

* The use of spin-torque nano-oscillators to implement deterministic computing, probabilistic computing, and a novel dual-mode operation. This adaptive hardware platform can dynamically switch between regimes by tuning noise strength and bi-harmonic excitation.

Benchmarking shows the CoIM exhibits complementary performance to Oscillatory Ising Machines (OIMs) and Probabilistic Ising Machines (PIMs), adapting to specific problem classes. This work represents the first oscillator-based Ising machine capable of transitioning between deterministic and probabilistic computation, paving the way for scalable, CMOS-compatible hardware for hybrid optimization and inference tasks.

Funding & Background:

The research was supported by the EU Horizon project SWAN-on-chip (101070287), the Italian PRIN 2020LWPKH7 project, the PETASPIN association, and the EU NextGeneration EU fund via the MUR-PNRR project SAMOTHRACE.

Speaker Biography:

Giovanni Finocchio (Ph.D., University of Messina, 2005) is a professor and director of the PETASPIN laboratory. His research spans spintronics, skyrmions, and unconventional computing. A prominent figure in the field, he has served in numerous conference leadership roles, including Program Chair for IEEE NANO 2024 and Co-Chair for the 2025 joint Intermag-MMM conference. He organized the first international conference on Ising Machines and is President of the Petaspin association. His professional roles include past AdCOM member of the IEEE Magnetics Society, Chair of the IEEE NTC's TC-16 on unconventional computing, and associate editor for *Physical Review Applied*. He is an IEEE Nanotechnology Council Distinguished Lecturer for 2026-2027.

Résumé
Le professeur Giovanni Finocchio de l'Université de Messine présentera un séminaire le 28 janvier 2026 au CEA-Grenoble sur les "Machines d'Ising adaptatives", un nouveau paradigme informatique combinant dynamique oscillatoire et échantillonnage probabiliste pour résoudre des problèmes d'optimisation combinatoire. Cette recherche, soutenue par des projets européens et italiens, vise à développer une plateforme matérielle hybride et compatible CMOS capable de basculer entre calculs déterministes et probabilistes. L'événement, organisé par SPINTEC, sera accessible en présentiel sur autorisation et via une visioconférence Zoom.

On January 28th 2026, we have the pleasure to welcome in SPINTEC the distinguished Lecturer of the IEEE Nanotechnology Council Giovanni Finocchio from University of Messina, Italy. He will give us a seminar at 14:00 entitled :

Adaptive Ising Machines: a paradigm combining oscillatory dynamics and probabilistic sampling

Place : IRIG/SPINTEC, auditorium 445 CEA Building 10.05 (presential access to the conference room at CEA in Grenoble requires an entry authorization. Request it before January 17 th at admin.spintec@cea.fr)

video conference : https://univ-grenoble-alpes-fr.zoom.us/j/98769867024?pwd=dXNnT3RMeThjYStybGVQSUN0TVdJdz09

Meeting ID: 987 6986 7024

Passcode: 025918

Abstract : The first part of the talk will focus on probabilistic computing which is one direction to implement Ising Machines with Probabilistic computing that is a computational paradigm using probabilistic bits (p-bits), unit in the middle between standard bit and q-bits. I will show how to map hard combinatorial optimization problems (Max-Sat, Max-Cut, etc) into Ising machine and how to implement those in spintronic technology. I will present new directions in this field considering the concept of extended probabilistic variables such as p-dit and p-int.

I will then discuss oscillatory Ising Machines dynamics with the aim of introducing the concept of Adaptive Ising Machines. For doing that, first I will discuss the universal theory of phase auto-oscillators driven by a bi-harmonic signal (having frequency components close to single and double of the free-running oscillator frequency) with noise showing how deterministic phase locking and stochastic phase slips can be continuously tuned by varying the relative amplitudes and frequencies of the driving components. I will then focus on how to use spin-torque nano-oscillators for implementing deterministic, probabilistic computing and dual-mode operation of Adaptive Ising Machines that dynamically combines both regimes within the same hardware platform by properly tuning noise strength and a bi-harmonic excitation.

Benchmarking on different classes of combinatorial optimization problems, the CoIM exhibits complementary performance as compared to OIMs and probabilistic Ising machines PIMs, with adaptability to the specific problem class. This work introduces the first oscillator-based Ising machine capable of transitioning between deterministic and probabilistic computation, opening a path toward scalable, CMOS-compatible hardware for hybrid optimization and inference.

This work was supported under the project number 101070287 — SWAN-on-chip — HORIZON-CL4-2021-DIGITAL-EMERGING-01, the project PRIN 2020LWPKH7 funded by the Italian Ministry of University and Research and by the PETASPIN association (www.petaspin.com) and it has been also funded by European Union (NextGeneration EU), through the MUR-PNRR project SAMOTHRACE (ECS00000022).

Biography : Giovanni Finocchio received the Ph.D. degree in advanced technologies in optoelectronic, photonic and electromagnetic modeling from the University of Messina, Italy, in 2005. He is full professor at the Department of Mathematical and Computer Sciences, Physical Sciences and Earth Sciences of the University of Messina and director of the PETASPIN laboratory (Petascale computing and Spintronics). His research interests include spintronics, skyrmions, and unconventional computing (https://scholar.google.co.uk/citations?user=eKDbn-oAAAAJ&hl=en). In the last 10 years, he served on many technical program committees of international conferences and organized more than 10 international conferences and workshops as Chair, Program Committee Member, or in other positions including program chair of the IEEE NANO 2024 and program co-chair of the 2025 joint Intermag-MMM conference. He is regularly invited at well-established conferences in Magnetism and Spintronics and he was the organizer of the first international conference on Ising Machines. He is also president of Petaspin association (www.petaspin.com), past AdCOM member of the IEEE Magnetics Society (2019-2024), chair of the TC-16 on Quantum, neuromorphic and unconventional computing of the IEEE Nanotechnology Council (NTC), past-chair of the IEEE Magnetics Italy Chapter (2019-2022) and Distinguish Lecturer of the IEEE Nanotechnology Council for 2026 and 2027. Since 2022, he is also associate editor of Physical Review Applied (APS).

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