Evaluation of voltage vs. pulse width modulation and feedback during set/reset verify-programming to achieve 10 million cycles for 50 nm HfO2 ReRAM

50 nm HfO2 resistive memory cells were measured by 6 6 verification variations to determine the optimal method to achieve 107 endurance and yield. The combination of pulse width incrementation during reset and pulse height modulation during set provided the most stable and highest cycling capability...

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Bibliographic Details
Published in:Solid-state electronics 2014, Vol.91, p.67-73
Main Authors: HIGUCHI, Kazuhide, TAKEUCHI, Ken, IWASAKI, Tomoko Ogura
Format: Article
Language:English
Subjects:
Applied sciences
Durability
Electric potential
Electronics
Endurance
Exact sciences and technology
Failure
Hafnium oxide
Magnetic and optical mass memories
Mathematical models
Pulse duration modulation
Pulse width
Storage and reproduction of information
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Summary:50 nm HfO2 resistive memory cells were measured by 6 6 verification variations to determine the optimal method to achieve 107 endurance and yield. The combination of pulse width incrementation during reset and pulse height modulation during set provided the most stable and highest cycling capability. Based on these results, a new conceptual model is proposed which combines the physical conduction model with direct tunneling, and provides a calculation method to predict resistance and explain degradation and reset failure. Furthermore, intermediate storing of programming information on a page basis is proposed in order to improve overall endurance.
ISSN:0038-1101
1879-2405
DOI:10.1016/j.sse.2013.09.013