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Physical Unclonable Functions (PUFs) use random physical variations to map input challenges to output responses in a way that is unique to each chip. PUFs are promising low cost security primitives but unreliability of outputs limits the practical applications of PUFs. This work addresses two causes of unreliability: environmental noise and device aging. To improve reliability, we constructively apply...
Physical Unclonable Functions (PUFs) and TrueRandom Number Generators (TRNGs) are gaining significantimportance in the field of hardware security. These cryptographicprimitives harness randomness from IC fabricationprocess and on-chip noise respectively, necessitating unconventionalpost-Silicon (Si) validation techniques. In this work, we present a brief survey of post-Si validation techniques forPUFs...
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