Related papers: Role of coherence in many-body Quantum Reservoir Computing

Role of coherence in many-body Quantum Reservoir Computing

URL: http://arxiv.org/abs/2409.17734v1
Date: Thu, 26 Sep 2024 11:06:08 GMT
Title: Role of coherence in many-body Quantum Reservoir Computing
Authors: Ana Palacios, Rodrigo Martínez-Peña, Miguel C. Soriano, Gian Luca Giorgi, Roberta Zambrini,
Abstract summary: We show how different quantum effects, such as quantum coherence and correlations, contribute to improving the performance in temporal tasks. We critically assess the impact of finite measurement resources and noise on the reservoir's dynamics in different regimes.
Score: 3.4078654008228924
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Quantum Reservoir Computing (QRC) offers potential advantages over classical reservoir computing, including inherent processing of quantum inputs and a vast Hilbert space for state exploration. Yet, the relation between the performance of reservoirs based on complex and many-body quantum systems and non-classical state features is not established. Through an extensive analysis of QRC based on a transverse-field Ising model we show how different quantum effects, such as quantum coherence and correlations, contribute to improving the performance in temporal tasks, as measured by the Information Processing Capacity. Additionally, we critically assess the impact of finite measurement resources and noise on the reservoir's dynamics in different regimes, quantifying the limited ability to exploit quantum effects for increasing damping and noise strengths. Our results reveal a monotonic relationship between reservoir performance and coherence, along with the importance of quantum effects in the ergodic regime.

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