상세 보기
- Lee, Jung-Kyu;
- Park, Yongjin;
- Seo, Euncho;
- Lee, Jong-Ho;
- Kim, Sungjoon;
- 외 1명
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5SCOPUS
5초록
Reservoir computing (RC) offers advantages in processing time-series data with reduced training costs and simpler architectures. This study presents a hardware-implemented RC system utilizing multifunctional memristors fabricated using a single process. By leveraging a ferroelectric-based memristor (FM) as a volatile reservoir layer and a redox-based memristor (RM) as a non-volatile readout layer, seamless integration without additional fabrication steps is achieved. The dual-functional memristor structure enables electrical conversion from FM to RM, enhancing system scalability and versatility. Comprehensive electrical measurements, including low-frequency noise analysis and weight update linearity evaluation, validate the memristors' performance. Potentiation and depression processes achieve a linearity factor improvement to ensure precise synaptic weight tuning, with cycle-to-cycle variation <2.3%. Additionally, the ferroelectric-based memristor exhibits a cycle-to-cycle variation of 3.52%, maintaining distinct reservoir states with minimal overlap. Offline training demonstrates a high classification accuracy of 93.3% on the Modified National Institute of Standards and Technology dataset, while online training achieves an accuracy of 88.2% with incremental pulse schemes, surpassing the accuracy of identical pulse schemes (65.1%). These results establish the practical viability of multifunctional memristors for neuromorphic systems, establishing a robust foundation for next-generation computing technologies
키워드
- 제목
- Integrated Design of Electrically Configurable Ferroelectric and Redox-Based Memristors for Hardware-Implemented Reservoir Computing
- 저자
- Lee, Jung-Kyu; Park, Yongjin; Seo, Euncho; Lee, Jong-Ho; Kim, Sungjoon; Kim, Sungjun
- 발행일
- 2025-09
- 유형
- Article
- 저널명
- Advanced Science
- 권
- 12
- 호
- 33