Litcius/Paper detail

Encoding Arbitrary Ising Hamiltonians on Spatial Photonic Ising Machines

Jason Sakellariou, Alexis Askitopoulos, Georgios Pastras, S. I. Tsintzos

2025Physical Review Letters9 citationsDOI

Abstract

Photonic Ising machines constitute an emergent new paradigm of computation geared toward tackling combinatorial optimization problems that can be reduced to the problem of finding the ground state of an Ising model. Spatial photonic Ising machines (SPIMs) have proven advantageous for simulating fully connected large-scale spin systems. Fine control of a general interaction matrix J has been accomplished so far only through matrix decomposition methods. We introduce and experimentally validate a SPIM instance that enables direct control over the full interaction matrix, allowing the encoding of Ising Hamiltonians with arbitrary couplings and connectivity. We demonstrate the conformity of the experimentally measured Ising energy with the theoretically expected value and then proceed to solve both the unweighted and weighted graph partitioning problems, showcasing a systematic convergence to an optimal solution via simulated annealing. Our approach significantly expands the applicability of SPIMs for real-world applications, as it is more efficient than matrix decomposition methods in the case of sparse problems. It paves the way to encoding the full range of NP problems that are known to be equivalent to Ising models on SPIM devices.

Topics & Concepts

Ising modelPhysicsIsing spinStatistical physicsPhotonicsSquare-lattice Ising modelCondensed matter physicsQuantum mechanicsNeural Networks and Reservoir ComputingQuantum Computing Algorithms and ArchitectureQuantum Information and Cryptography