s41598-020-62718-0.pdf (2.72 MB)
Exploiting Dual-Gate Ambipolar CNFETs for Scalable Machine Learning Classification
journal contribution
posted on 2023-07-20, 19:22 authored by Farid Kenarangi, Xuan Hu, Yihan Liu, Jean Anne C Incorvia, Joseph S Friedman, Inna Partin-VaisbandAmbipolar carbon nanotube based field-effect transistors (AP-CNFETs) exhibit unique electrical characteristics, such as tri-state operation and bi-directionality, enabling systems with complex and reconfigurable computing. In this paper, AP-CNFETs are used to design a mixed-signal machine learning logistic regression classifier. The classifier is designed in SPICE with feature size of 15 nm and operates at 250 MHz. The system is demonstrated in SPICE based on MNIST digit dataset, yielding 90% accuracy and no accuracy degradation as compared with the classification of this dataset in Python. The system also exhibits lower power consumption and smaller physical size as compared with the state-of-the-art CMOS and memristor based mixed-signal classifiers.
History
Citation
Kenarangi, F., Hu, X., Liu, Y., Incorvia, J. A. C., Friedman, J. S.Partin-Vaisband, I. (2020). Exploiting Dual-Gate Ambipolar CNFETs for Scalable Machine Learning Classification. Scientific Reports, 10(1), 5735-. https://doi.org/10.1038/s41598-020-62718-0Publisher
Springer NatureLanguage
- en