Review of error correction for PUFs and evaluation on state-of-the-art FPGAs
M Hiller, L Kürzinger, G Sigl - Journal of cryptographic engineering, 2020 - Springer
Efficient error correction and key derivation is a prerequisite to generate secure and reliable
keys from PUFs. The most common methods can be divided into linear schemes and pointer …
keys from PUFs. The most common methods can be divided into linear schemes and pointer …
Breaking through fixed PUF block limitations with differential sequence coding and convolutional codes
Secret key generation with Physical Unclonable Functions (PUFs) is an alternative to
conventional secure key storage with non-volatile memory. In a PUF, secret bits are …
conventional secure key storage with non-volatile memory. In a PUF, secret bits are …
Key derivation with physical unclonable functions
M Hiller - 2016 - mediatum.ub.tum.de
Physical Unclonable Functions (PUFs) evaluate manufacturing variations to derive unique
secret keys from integrated circuits. Error correction is needed for generating reliable keys …
secret keys from integrated circuits. Error correction is needed for generating reliable keys …
Low-area Reed decoding in a generalized concatenated code construction for PUFs
M Hiller, L Kürzinger, G Sigl, S Müelich… - 2015 IEEE Computer …, 2015 - ieeexplore.ieee.org
Physical Unclonable Functions (PUFs) enable secure key storage for integrated circuits and
FPGAs. PUF responses are noisy such that error correction is required to generate stable …
FPGAs. PUF responses are noisy such that error correction is required to generate stable …
Fehlerkorrekturverfahren zur sicheren Schlüsselerzeugung mit Physical Unclonable Functions
Zusammenfassung Silizium basierte Physical Unclonable Functions (PUFs) werten
Fertigungsschwankungen in elektronischen Schaltungen aus, um sicher und zuverlässig …
Fertigungsschwankungen in elektronischen Schaltungen aus, um sicher und zuverlässig …