Tomohiro Sonobe scite author profile

The analysis and optimization of complex systems can be reduced to mathematical problems collectively known as combinatorial optimization. Many such problems can be mapped onto ground-state search problems of the Ising model, and various artificial spin systems are now emerging as promising approaches. However, physical Ising machines have suffered from limited numbers of spin-spin couplings because of implementations based on localized spins, resulting in severe scalability problems. We report a 2000-spin network with all-to-all spin-spin couplings. Using a measurement and feedback scheme, we coupled time-multiplexed degenerate optical parametric oscillators to implement maximum cut problems on arbitrary graph topologies with up to 2000 nodes. Our coherent Ising machine outperformed simulated annealing in terms of accuracy and computation time for a 2000-node complete graph.

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100,000-spin coherent Ising machine

Honjo

et al. 2021

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Computers based on physical systems are increasingly anticipated to overcome the impending limitations on digital computer performance. One such computer is a coherent Ising machine (CIM) for solving combinatorial optimization problems. Here, we report a CIM with 100,512 degenerate optical parametric oscillator pulses working as the Ising spins. We show that the CIM delivers fine solutions to maximum cut problems of 100,000-node graphs drastically faster than standard simulated annealing. Moreover, the CIM, when operated near the phase transition point, provides some extremely good solutions and a very broad distribution. This characteristic will be useful for applications that require fast random sampling such as machine learning.

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Binary optimization by momentum annealing

et al. 2019

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Coarsening Massive Influence Networks for Scalable Diffusion Analysis

Ohsaka

Sonobe

Fujita³

et al. 2017

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Tomohiro Sonobe

A coherent Ising machine for 2000-node optimization problems

100,000-spin coherent Ising machine

Binary optimization by momentum annealing

Coarsening Massive Influence Networks for Scalable Diffusion Analysis

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