Abstract
This work presents a behavior-based memristor model for the simulation of novel digital logic architectures. This model exhibits the nonvolatile hard switching current–voltage curves of the experimentally realized memristors. Because the model is implemented via the widely available traditional SPICE (Simulation Program with Integrated Circuit Emphasis) circuit components, its accuracy is not dependent on still-emerging device transport theory and auxiliary variables. The memristor model is used in material implication (IMPLY) gates to perform both combinational and sequential logics. As IMPLY gates exhibit the complete functionality required for digital logic, this work presents a simple realistic memristor model for use in the simulation of novel digital logic architectures.
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