4 research outputs found
On the Confidence in Bit-Alias Measurement of Physical Unclonable Functions
Physical Unclonable Functions (PUFs) are modern solutions for cheap and
secure key storage. The security level strongly depends on a PUF's
unpredictability, which is impaired if certain bits of the PUF response tend
towards the same value on all devices. The expectation for the probability of 1
at some position in the response, the Bit-Alias, is a state-of-the-art metric
in this regard. However, the confidence interval of the Bit-Alias is never
considered, which can lead to an overestimation of a PUF's unpredictability.
Moreover, no tool is available to verify if the Bit-Alias is within given
limits. This work adapts a method for the calculation of confidence intervals
to Bit-Alias. It further proposes a statistical hypothesis test to verify if a
PUF design meets given specifications on Bit-Alias or bit-wise entropy.
Application to several published PUF designs demonstrates the methods'
capabilities. The results prove the need for a high number of samples when the
unpredictability of PUFs is tested. The proposed methods are publicly available
and should improve the design and evaluation of PUFs in the future.Comment: Original publication at 2019 17th IEEE International New Circuits and
Systems Conference (NEWCAS