What question did this study set out to answer?

To evaluate a low-power analog CMOS reservoir computing chip for temporal signal processing tasks.

March 4, 2026Open Access

Demonstration of a subthreshold analog CMOS reservoir chip for temporal signal processing

Puntos clave

To evaluate a low-power analog CMOS reservoir computing chip for temporal signal processing tasks.
Developed an analog CMOS chip with a ring topology for nonlinear processing.
Integrated sample-and-hold circuits operating at 1 kHz for signal processing.
Tested the chip on standard benchmarks for various order capacities.
Achieved a linear memory capacity of 13.4.
Demonstrated information processing capacities of 7.2 (second-order), 3.3 (third-order), and 1.2 (fourth-order).
Showed competitive accuracy in short- and long-term time-series forecasting with only 20 μW power dissipation per core.

Resumen

Abstract We present a low-power analog CMOS reservoir computing chip that employs a simple ring topology for unidirectional nonlinear analog processing. Each node integrates a sample-and-hold circuit operating at 1 kHz, enabling compact and energy-efficient implementation in standard CMOS. The fabricated chip was evaluated on standard benchmarks, achieving a linear memory capacity of 13.4 and information processing capacities of 7.2 (second-order), 3.3 (third-order), and 1.2 (fourth-order). It also demonstrated competitive accuracy in both short- and long-term time-series forecasting tasks. Most notably, this performance was achieved with a power dissipation of only 20 μ W per core, highlighting the potential of analog CMOS reservoir computing for deployment in energy-constrained edge devices.

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Cite This Study

Matsuno et al. (Mon,) studied this question.

synapsesocial.com/papers/69a7cd4fd48f933b5eed987e https://doi.org/https://doi.org/10.1038/s44335-026-00059-3

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