In-materio reservoir working at low frequencies in a Ag 2 S-island network.

A Ag 2 S-island network is fabricated with surrounding electrodes to enable it to be used as a reservoir for unconventional computing. Local conductance change occurs due to the growth/shrinkage of Ag filaments from/into each Ag 2 S island in the reservoir. The growth/shrinkage of Ag filaments is caused by the drift of Ag + cations in each Ag 2 S island, which results in a unique non-linear response as a reservoir, especially at lower frequencies. The response of the reservoir is shown to depend on the frequency and amplitude of the input signals. So as to evaluate its capability as a reservoir, logical operations were performed using the subject Ag 2 S-island network, with the results showing an accuracy of greater than 99%.