Destabilization of Local Minima in Analog Spin Systems by Correction of Amplitude Heterogeneity

Destabilization of Local Minima in Analog Spin Systems by Correction of Amplitude Heterogeneity

The relaxation of binary spins to analog values has been the subject of much debate in the field of statistical physics, neural networks, and more recently quantum computing, notably because the benefits of using an analog state for finding lower energy spin configurations are usually offset by the...

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Veröffentlicht in:Physical review letters 2019-02, Vol.122 (4), p.040607-040607, Article 040607
Hauptverfasser: Leleu, Timothée, Yamamoto, Yoshihisa, McMahon, Peter L, Aihara, Kazuyuki
Format: Artikel
Sprache:eng
Schlagworte:
Amplitudes
Destabilization
Divergence
Error correction
Error signals
Inhomogeneity
Mapping
Neural networks
Quantum computing
State of the art
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Zusammenfassung:The relaxation of binary spins to analog values has been the subject of much debate in the field of statistical physics, neural networks, and more recently quantum computing, notably because the benefits of using an analog state for finding lower energy spin configurations are usually offset by the negative impact of the improper mapping of the energy function that results from the relaxation. We show that it is possible to destabilize trapping sets of analog states that correspond to local minima of the binary spin Hamiltonian by extending the phase space to include error signals that correct amplitude inhomogeneity of the analog spin states and controlling the divergence of their velocity. Performance of the proposed analog spin system in finding lower energy states is competitive against state-of-the-art heuristics.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.122.040607