Litcius/Paper detail

A monolithically integrated optical Ising machine

Bo Wu, Wenkai Zhang, Shiji Zhang, Hailong Zhou, Zhichao Ruan, Ming Li, Dongmei Huang, Jianji Dong, Xinliang Zhang

2025Nature Communications21 citationsDOIOpen Access PDF

Abstract

The growing demand for enhanced computational power and energy efficiency has driven the development of optical Ising machines for solving combinatorial optimization problems. However, existing implementations face challenges in integration density and energy efficiency. Here, we propose a monolithically integrated four-spin Ising machine based on optoelectronic coupled oscillators. This system integrates a custom-designed Mach-Zehnder interferometer (MZI) symmetric matrix with a high-efficiency optical-electrical coupled (OEC) nonlinear unit. The OEC unit has an ultra-compact 0.01 mm² footprint and achieves a power efficiency of 4 mW per unit, ensuring scalability. The reconfigurable real-valued coupling matrix achieves a mean fidelity of 0.986. The spin evolution time is measured as 150 ns, with a 1.71 ns round-trip time confirmed through bandwidth measurements. The system successfully finds ground states for various four-spin Ising problems, demonstrating its effectiveness. This work represents a significant step toward monolithic integration of all-optical physical annealing systems, minimizing footprint, power consumption, and convergence time. Researchers demonstrate a monolithically integrated four-spin optical Ising machine using optoelectronic coupled oscillators. The system achieves high efficiency (4 mW per unit), fast spin evolution (150 ns), and reconfigurable coupling, advancing scalable optical computing.

Topics & Concepts

Ising modelComputer scienceStatistical physicsPhysicsNeural Networks and Reservoir ComputingQuantum Computing Algorithms and ArchitectureOptical Network Technologies