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Paper detail

New analytic formulae for memory and prediction functions in reservoir computers with time delays

Time delays increase the effective dimensionality of reservoirs, thus suggesting that time delays in reservoirs can enhance their performance, particularly their memory and prediction abilities. We find new closed-form expressions for memory and prediction functions of linear time-delayed reservoirs in terms of the power spectrum of the input and the reservoir transfer function. We confirm this relationship numerically for some time-delayed reservoirs using simulations, including when the reservoir can be linearized but is actually nonlinear. Finally, we use these closed-form formulae to address the utility of multiple time delays in linear reservoirs in order to perform memory and prediction, finding similar results to previous work on nonlinear reservoirs. We hope these closed-form formulae can be used to understand memory and predictive capabilities in time-delayed reservoirs.

preprint2025arXivOpen access
Peyton MullarkeySarah Marzen
physics.comp-ph
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Peyton MullarkeySarah Marzen

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