Resistive tunable memristor emulator model and its application

Nowadays, memory elements (memristor, memcapacitor, and meminductor) found a wider range of applications in various fields like analog computation, memory-based circuits, neuromorphic circuits, etc. In this article, we have proposed a high-frequency memristor emulator using current-mode analog building blocks to emulate memristive behavior. The proposed design required two analog building blocks and two passive components. It is configured in both decremental and incremental modes, and operates up to 30 MHz. The effectiveness of the emulator is verified by performing various analyses. All simulation is performed using cadence virtuoso software with a 180 nm CMOS parameter. The proposed emulator circuit is also laid out. The layout area is only 579 mu m2 and it consumes 591 mu W of power. The post-layout simulation has been performed at various operating frequencies and post-layout simulation results are well matched with pre-layout results. Additionally, an experiment is performed using commercially available ICs CA3080 and AD844. The experimental results well agree with the simulation results. As an application part, Chua's oscillator, a neuromorphic adaptive learning circuit, and a high pass filter are designed. A neuromorphic adaptive learning circuit is designed to predict behavioral response over any change in environmental conditions like temperature.

Automated summary

In this article, a high-frequency memristor emulator is proposed using current-mode analog building blocks to simulate memristive behavior. The design requires two analog building blocks and two passive components, and operates up to 30 MHz. The effectiveness of the emulator is verified through various analyses.