True Random Number Generation by Variability of Resistive Switching in Oxide-Based Devices

True Random Number Generation by Variability of Resistive Switching in Oxide-Based Devices

Scalable, low-power random number generator (RNG) blocks are essential for encryption in today's communication systems. To allow for true RNG, a system must display an inherently-random physical phenomenon, such as the timing of individual fluctuations in random telegraph noise or the random tr...

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Veröffentlicht in:IEEE journal on emerging and selected topics in circuits and systems 2015-06, Vol.5 (2), p.214-221
Hauptverfasser: Balatti, Simone, Ambrogio, Stefano, Zhongqiang Wang, Ielmini, Daniele
Format: Artikel
Sprache:eng
Schlagworte:
Electrical resistance measurement
Immune system
Memory reliability
nonvolatile memory
Pulse measurements
random number generation
Resistance
resistive-switching memory (RRAM)
Switches
Transistors
Voltage measurement
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Zusammenfassung:Scalable, low-power random number generator (RNG) blocks are essential for encryption in today's communication systems. To allow for true RNG, a system must display an inherently-random physical phenomenon, such as the timing of individual fluctuations in random telegraph noise or the random trapping/detrapping phenomena in dielectrics. In this work, a true RNG based on set variability in a resistive switching memory (RRAM) is demonstrated. The RNG relies on a single RRAM device, which is repeatedly programmed at a constant voltage close to the nominal set voltage. Due to the statistical variability of the set voltage, set transition takes place only in 50% of the applied pulses, thus resulting in a bimodal distribution of resistance. The bimodal distribution of analog resistance is finally converted into a 0/1 distribution of output voltage values through digital regeneration with a CMOS inverter.
ISSN:2156-3357
2156-3365
DOI:10.1109/JETCAS.2015.2426492