A neuromorphic design using chaotic mott memristor with relaxation oscillation
Publication
, Conference
Yan, B; Cao, X; Li, HH
Published in: Proceedings - Design Automation Conference
June 24, 2018
The recent proposed nanoscale Mott memristor features negative differential resistance and chaotic dynamics. This work proposes a novel neuromorphic computing system that utilizes Mott memristors to simplify peripheral circuitry. According to the analytic description of chaotic dynamics and relaxation oscillation, we carefully tune the working point of Mott memristors to balance the chaotic behavior weighing testing accuracy and training efficiency. Compared with conventional designs, the proposed design accelerates the training by 1.893× averagely and saves 27.68% and 43.32% power consumption with 36.67% and 26.75% less area for singlelayer and two-layer perceptrons, respectively.
Duke Scholars
Published In
Proceedings - Design Automation Conference
DOI
ISSN
0738-100X
ISBN
9781450357005
Publication Date
June 24, 2018
Volume
Part F137710
Citation
APA
Chicago
ICMJE
MLA
NLM
Yan, B., Cao, X., & Li, H. H. (2018). A neuromorphic design using chaotic mott memristor with relaxation oscillation. In Proceedings - Design Automation Conference (Vol. Part F137710). https://doi.org/10.1145/3195970.3195977
Yan, B., X. Cao, and H. H. Li. “A neuromorphic design using chaotic mott memristor with relaxation oscillation.” In Proceedings - Design Automation Conference, Vol. Part F137710, 2018. https://doi.org/10.1145/3195970.3195977.
Yan B, Cao X, Li HH. A neuromorphic design using chaotic mott memristor with relaxation oscillation. In: Proceedings - Design Automation Conference. 2018.
Yan, B., et al. “A neuromorphic design using chaotic mott memristor with relaxation oscillation.” Proceedings - Design Automation Conference, vol. Part F137710, 2018. Scopus, doi:10.1145/3195970.3195977.
Yan B, Cao X, Li HH. A neuromorphic design using chaotic mott memristor with relaxation oscillation. Proceedings - Design Automation Conference. 2018.
Published In
Proceedings - Design Automation Conference
DOI
ISSN
0738-100X
ISBN
9781450357005
Publication Date
June 24, 2018
Volume
Part F137710