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Restricted Boltzmann Machines for galaxy morphology classification with a quantum annealer

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arxiv 1911.06259 v2 pith:HOMX62JA submitted 2019-11-14 quant-ph astro-ph.GAcs.LG

Restricted Boltzmann Machines for galaxy morphology classification with a quantum annealer

classification quant-ph astro-ph.GAcs.LG
keywords d-wavequantumrbmsboltzmannclassificationgalaxyalgorithmsanalysis
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present the application of Restricted Boltzmann Machines (RBMs) to the task of astronomical image classification using a quantum annealer built by D-Wave Systems. Morphological analysis of galaxies provides critical information for studying their formation and evolution across cosmic time scales. We compress galaxy images using principal component analysis to fit a representation on the quantum hardware. Then, we train RBMs with discriminative and generative algorithms, including contrastive divergence and hybrid generative-discriminative approaches, to classify different galaxy morphologies. The methods we compare include Quantum Annealing (QA), Markov Chain Monte Carlo (MCMC) Gibbs Sampling, and Simulated Annealing (SA) as well as machine learning algorithms like gradient boosted decision trees. We find that RBMs implemented on D-Wave hardware perform well, and that they show some classification performance advantages on small datasets, but they don't offer a broadly strategic advantage for this task. During this exploration, we analyzed the steps required for Boltzmann sampling with the D-Wave 2000Q, including a study of temperature estimation, and examined the impact of qubit noise by comparing and contrasting the original D-Wave 2000Q to the lower-noise version recently made available. While these analyses ultimately had minimal impact on the performance of the RBMs, we include them for reference.

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  1. Boltzmann Sampling by Diabatic Quantum Annealing

    cond-mat.stat-mech 2024-09 unverdicted novelty 6.0

    Diabatic quantum annealing offers a controllable unitary Boltzmann sampler with temperature determined by annealing rate, achieving accurate results for ferromagnetic Ising and SK models in the high-temperature regime.