Information Processing Capacity of Spin-Based Quantum Reservoir Computing Systems

The dynamical behaviour of complex quantum systems can be harnessed for information processing. With this aim, quantum reservoir computing (QRC) with Ising spin networks was recently introduced as a quantum version of classical reservoir computing. In turn, reservoir computing is a neuro-inspired ma...

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Bibliographic Details
Published in:arXiv.org 2020-10
Main Authors: Martínez-Peña, R, Nokkala, J, Giorgi, G L, Zambrini, R, Soriano, M C
Format: Article
Language:English
Subjects:
Computation
Correlation analysis
Data processing
Dynamical systems
Information processing
Ising model
Machine learning
Time multiplexing
Online Access:Get full text
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Summary:The dynamical behaviour of complex quantum systems can be harnessed for information processing. With this aim, quantum reservoir computing (QRC) with Ising spin networks was recently introduced as a quantum version of classical reservoir computing. In turn, reservoir computing is a neuro-inspired machine learning technique that consists in exploiting dynamical systems to solve nonlinear and temporal tasks. We characterize the performance of the spin-based QRC model with the Information Processing Capacity (IPC), which allows to quantify the computational capabilities of a dynamical system beyond specific tasks. The influence on the IPC of the input injection frequency, time multiplexing, and different measured observables encompassing local spin measurements as well as correlations, is addressed. We find conditions for an optimum input driving and provide different alternatives for the choice of the output variables used for the readout. This work establishes a clear picture of the computational capabilities of a quantum network of spins for reservoir computing. Our results pave the way to future research on QRC both from the theoretical and experimental points of view.
ISSN:2331-8422
DOI:10.48550/arxiv.2010.06369