Fully-Integrated Differential RRAM Cell Designs with Multi-Level Capability and Enhanced Read Margin

• Published in: IEEE International Symposium on Circuits and Systems proceedings pp. 1 - 5
• Main Authors: Pechmann, Stefan, Reichel, Peter, Spatling, Thorsten, Hagelauer, Amelie
• Format: Conference Proceeding
• Language: English
• Published: IEEE 25.05.2025
• Subjects: Circuits and systems; Differential Memory; Memory Integration; Power system stability; Programming; ReRAM; Resistive Switching; Resistors; RRAM; Security; Stability analysis; Switches; Switching circuits; System integration
• ISSN: 2158-1525
• DOI: 10.1109/ISCAS56072.2025.11043670

This work presents three differential RRAM memory cell designs, that enable multi-state operation. By adding switchable resistances as well as sequential read and programming operations, the proposed configurations enhance memory stability and enable easy system integration by providing a fully-digital interface without the need of analog references. They can combine the advantages of differential memory cells and RRAM's multi-level capability. The concepts were realized using a CMOS-integrated RRAM technology and completely integrated in a standard cell grid. The proposed concept has potential to be extended to even more levels and can be adapted to different resistive switching technologies.