Feasibility Study of Emerging Non-Volatile Memory Based Physical Unclonable Functions

Please use this identifier to cite or link to this item: https://doi.org/10.1109/IMW.2014.6849384

Title:	Feasibility Study of Emerging Non-Volatile Memory Based Physical Unclonable Functions
Authors:	Zhang, Le Fong, Xuanyao Chang, Chip-Hong Kong, Zhi Hui Roy, Kaushik
Keywords:	Science & Technology Technology Engineering, Electrical & Electronic Engineering COMPACT MODEL
Issue Date:	1-Jan-2014
Publisher:	IEEE
Citation:	Zhang, Le, Fong, Xuanyao, Chang, Chip-Hong, Kong, Zhi Hui, Roy, Kaushik (2014-01-01). Feasibility Study of Emerging Non-Volatile Memory Based Physical Unclonable Functions. IEEE 6th International Memory Workshop (IMW). ScholarBank@NUS Repository. https://doi.org/10.1109/IMW.2014.6849384
Abstract:	The feasibility and quality of Memory-based Physical Unclonable Functions (MemPUFs) based on emerging Non-Volatile Memory (eNVM) technologies (Spin-Transfer Torque Magnetic Random Access Memory, Phase Change RAM, and Resistive RAM) are studied in this paper. MemPUFs using the three technologies were evaluated in terms of reliability, uniqueness and randomness using different sensing modes and under varying operating conditions. Our results show that eNVM based MemPUFs with differential sensing mode exhibit good randomness and reliability. As compared to conventional MemPUFs, eNVM based MemPUFs are better in terms of area cost. © 2014 IEEE.
Source Title:	IEEE 6th International Memory Workshop (IMW)
URI:	https://scholarbank.nus.edu.sg/handle/10635/156211
ISBN:	9781479935949
ISSN:	23307978
DOI:	10.1109/IMW.2014.6849384
Appears in Collections:	Staff Publications Elements

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