Ionic Liquid-Based Reservoir Computing: The Key to Efficient and Flexible Edge Computing (IMAGE)

Tokyo University of Science

Ionic Liquid-Based Reservoir Computing: The Key to Efficient and Flexible Edge Computing

Caption

Input signal conversion through the ionic liquid-based PRC system. The reservoir output in the form of current response (top and middle) to an input voltage pulse signal (bottom) are shown. If the current decay (dielectric relaxation) is too fast/slow, it reaches its saturation value before the next signal input and no history of the previous signal is retained (middle image). Whereas, if the current response attenuates with a relaxation time that is properly matched with the time scales of the input pulse, the history of the previous input signal is retained (top image).

Credit

Kentaro Kinoshita from TUS.

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