Title :
Countering the effects of silicon aging on SRAM PUFs
Author :
Maes, Roel ; van der Leest, Vincent
Author_Institution :
Intrinsic-ID, Eindhoven, Netherlands
Abstract :
Silicon aging, in particular NBTI, causes many PUFs to exhibit a natural tendency of growing less reliable over time. This is inconvenient or even unacceptable for in-the-field applications. In case of SRAM PUFs it is observed that the impact of NBTI aging depends on the data stored in the SRAM. In this work, we investigate the effects of data-dependent silicon aging on SRAM PUF reliability under a number of realistic scenarios. In an accelerated aging experiment on a 65nm CMOS SRAM PUF implementation it is observed that many scenarios cause a smaller reliability reduction than natural aging. Some scenarios even show anti-aging effects, i.e. they cause the SRAM PUF to grow more reliable over time. This is a significant improvement when using an SRAM PUF. Even more so because data-dependent (anti-)aging has a particularly low overhead, requiring neither any changes to the PUF circuit nor any pre-deployment effort.
Keywords :
CMOS integrated circuits; SRAM chips; ageing; elemental semiconductors; integrated circuit reliability; monolithic integrated circuits; negative bias temperature instability; semiconductor device reliability; CMOS SRAM PUF implementation; NBTI aging; PUF circuit; SRAM PUF reliability; SRAM stored data; antiaging effects; data-dependent silicon aging effects; physical unclonable function; reliability reduction; Accelerated aging; CMOS integrated circuits; Random access memory; Reliability; Silicon;
Conference_Titel :
Hardware-Oriented Security and Trust (HOST), 2014 IEEE International Symposium on
Conference_Location :
Arlington, VA
Print_ISBN :
978-1-4799-4114-8
DOI :
10.1109/HST.2014.6855586
