AI Article Synopsis
- Resistive Random Access Memory (RRAM) is being researched for its benefits in energy efficiency and non-volatility, but designing effective systems is complex and time-consuming for material and device scientists.
- There's a need for a user-friendly modeling framework that helps researchers evaluate device performance early in the design process, focusing on speed, accuracy, and adaptability.
- This paper presents a digital twin (DT)-like framework that generates RRAM device models from measurement data, includes peripheral circuits for better evaluations, and demonstrates its effectiveness in applications like neural network processing of ECG data and Fault Aware Training.
Article Abstract
Resistive Random Access Memory (RRAM) has gained considerable momentum due to its non-volatility and energy efficiency. Material and device scientists have been proposing novel material stacks that can mimic the "ideal memristor" which can deliver performance, energy efficiency, reliability and accuracy. However, designing RRAM-based systems is challenging. Engineering a new material stack, designing a device, and experimenting takes significant time for material and device researchers. Furthermore, the acceptability of the device is ultimately decided at the system level. We see a gap here where there is a need for facilitating material and device researchers with a "push button" modeling framework that allows to evaluate the efficacy of the device at system level during early device design stages. Speed, accuracy, and adaptability are the fundamental requirements of this modelling framework. In this paper, we propose a digital twin (DT)-like modeling framework that automatically creates RRAM device models from device measurement data. Furthermore, the model incorporates the peripheral circuit to ensure accurate energy and performance evaluations. We demonstrate the DT generation and DT usage for multiple RRAM technologies and applications and illustrate the achieved performance of our GPU implementation. We conclude with the application of our modeling approach to measurement data from two distinct fabricated devices, validating its effectiveness in a neural network processing an Electrocardiogram (ECG) dataset and incorporating Fault Aware Training (FAT).
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11467404 | PMC |
| http://dx.doi.org/10.1038/s41598-024-73439-z | DOI Listing |
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