Shelby Hall Graduate Research Forum Posters
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Description
Resistive Random-Access Memory (ReRAM) is a promising non-volatile memory technology that offers high-speed operation, low power consumption, and high scalability. It is suitable for modern computing applications, including neuromorphic and AI-driven architectures. However, efficient control of ReRAM programming operations, such as SET, RESET, and FORM, is critical to improving endurance, accuracy, and energy efficiency [1].
This work presents a dynamic ReRAM control system that leverages Pulse Width Modulation (PWM), Digital-to-Analog Converters (DACs), and adaptive voltage control to optimize ReRAM programming. The proposed control method dynamically adjusts pulse width and voltage levels to minimize power consumption and improve memory reliability.
Publication Date
3-2025
Department
Systems Engineering
City
Mobile
Disciplines
Other Computer Sciences | Other Operations Research, Systems Engineering and Industrial Engineering | Systems Architecture | Systems Engineering
Recommended Citation
Khan, Mohammed Rafeeq and Wang, Jinhui, "Dynamic Control of ReRam" (2025). Shelby Hall Graduate Research Forum Posters. 31.
https://jagworks.southalabama.edu/southalabama-shgrf-posters/31
Included in
Other Computer Sciences Commons, Other Operations Research, Systems Engineering and Industrial Engineering Commons, Systems Architecture Commons, Systems Engineering Commons