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Coherent Ising machines—Quantum optics and neural network Perspectives

Y. Yamamoto, T. Leleu, S. Ganguli, H. Mabuchi

2020Applied Physics Letters67 citationsDOIOpen Access PDF

Abstract

A coherent Ising machine (CIM) is a network of optical parametric oscillators (OPOs), in which the “strongest” collective mode of oscillation at well above threshold corresponds to an optimum solution of a given Ising problem. When a pump rate or network coupling rate is increased from below to above threshold, however, the eigenvectors with the smallest eigenvalue of the Ising coupling matrix [Jij] appear near threshold and impede the machine to relax to true ground states. Two complementary approaches to attack this problem are described here. One approach is to utilize the squeezed/anti-squeezed vacuum noise of OPOs below threshold to produce coherent spreading over numerous local minima via quantum noise correlation, which could enable the machine to access either true ground states or excited states with eigen-energies close enough to that of ground states above threshold. The other approach is to implement a real-time error correction feedback loop so that the machine migrates from one local minimum to another during an explorative search for ground states. Finally, a set of qualitative analogies connecting the CIM and traditional computer science techniques are pointed out. In particular, belief propagation and survey propagation used in combinatorial optimization are touched upon.

Topics & Concepts

OPOSIsing modelMaxima and minimaArtificial neural networkCoupling (piping)Eigenvalues and eigenvectorsStatistical physicsPhysicsParametric statisticsComputer scienceNoise (video)Topology (electrical circuits)Matrix (chemical analysis)Quantum computerOscillation (cell signaling)Quantum mechanicsQuantum opticsQuantumCoherent statesGround stateAlgorithmSet (abstract data type)Excited stateMathematicsPhysical systemQuantum fluctuationQuantum nonlocalityQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyNeural Networks and Reservoir Computing
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