A Physical Memristor Model for Pavlovian Associative Memory

Abstract Brain-inspired intelligence is considered a computational model with the most promising potential to overcome the shortcomings of the von Neumann architecture, making it a current research hotspot. Due to advantages such as nonvolatility, high density, low power consumption, and high response ratio, memristors are regarded as devices with promising applications in brain-inspired intelligence. This paper proposes a physical Ag/HfO$_{x}$/FeO$_{x}$/Pt memristor model. Firstly, the Ag/HfO$_{x}$/FeO$_{x}$/Pt memristor is fabricated using magnetron sputtering, and its internal principles and characteristics are thoroughly analyzed. Furthermore, we constructed a corresponding physical memristor model which achieves a simulation accuracy of up to 99.72% for the physical memristor. We design a fully functional Pavlovian associative memory circuit, realizing functions including generalization, primary differentiation, secondary differentiation, and forgetting. Finally, the circuit is validated through PSPICE simulation and analysis.