de Benito, C.; Camps, O.; Al Chawa, M.M.; Stavrinides, S.G.; Picos, R. A Switched Capacitor Memristor Emulator Using Stochastic Computing. Technologies2022, 10, 39.
de Benito, C.; Camps, O.; Al Chawa, M.M.; Stavrinides, S.G.; Picos, R. A Switched Capacitor Memristor Emulator Using Stochastic Computing. Technologies 2022, 10, 39.
de Benito, C.; Camps, O.; Al Chawa, M.M.; Stavrinides, S.G.; Picos, R. A Switched Capacitor Memristor Emulator Using Stochastic Computing. Technologies2022, 10, 39.
de Benito, C.; Camps, O.; Al Chawa, M.M.; Stavrinides, S.G.; Picos, R. A Switched Capacitor Memristor Emulator Using Stochastic Computing. Technologies 2022, 10, 39.
Abstract
Due to the increased use of memristors, and its many applications, the use of emulators has grown in parallel to avoid some of the difficulties presented by real devices such as variability and reliability. In this paper, we present a memristive emulator designed using a Switched Capacitor (SC), this is, an analog component/ block and a control part or block implemented using stochastic computing (SCo) and therefore fully digital. Our design is thus a mixed signal circuit. Memristor equations are implemented using stochastic computing to generate the control signals necessary to work with the controllable resistor implemented as switched capacitor.
Keywords
memristor; emulator; analog design; switched capacitor; stochastic computing; mixed signal
Subject
Engineering, Electrical and Electronic Engineering
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.