Publication alert "Effect of Transistor Transfer Characteristics on the Programming Process in 1T1R Configuration"

The one-transistor-one-resistor (1T1R) architecture plays a crucial role in neuromorphic computing, helping to control state variability and reduce leakage current in redox-based resistive memory (ReRAM) arrays. Our latest study explores how transistor characteristics impact the programming behavior of valence change mechanism (VCM)-based ReRAM devices. By analyzing different transistor sizes and their electrical characteristics, we provide key insights and design guidelines to optimize performance. Dive into our findings to see how precise transistor selection can enhance ReRAM efficiency and reliability.

Publication alert "Effect of Transistor Transfer Characteristics on the Programming Process in 1T1R Configuration"

Liu, X., Bengel, C., Cüppers, F., Solfronk, O., Zhang, B., Hoffmann-Eifert, S., ... & Wiefels, S. (2024). Effect of Transistor Transfer Characteristics on the Programming Process in 1T1R Configuration. IEEE Transactions on Electron Devices. 10.1109/TED.2024.3370536

Last Modified: 11.02.2025