AI-Guided Codesign Framework for Novel Material and Device Design applied to MTJ-based True Random Number Generators

Designing devices for novel applications is oftentimes a time rigorous and resource-constrained process that requires utilizing computationally intensive simulations, device fabrication, and testing of the physical components in the application-specific environment. At the same time, customizing device characteristics to a particular application can allow for significant performance improvements. Automated codesign strategies are becoming increasingly popular with advancements in the artificial intelligence (AI) field that provide useful machine learning algorithms and frameworks [1-4]. Such codesign provides new opportunities to automatically customize devices for application-specific needs to maximize performance--whether that involves a particular capability, energy usage, latency, throughput, or even combinations of metrics. The operation of emerging devices, such as magnetic tunnel junctions (MTJs) [5-8], can be simulated using physics-based models that capture key behaviors based on materials and device properties.