This paper presents a new silicon physical unclonable function (PUF) based on a transient effect ring oscillator (TERO). The proposed PUF has state of the art PUF characteristics with a good ratio of PUF response variability to response length. Unlike RO-PUF, it is not sensitive to the locking phenomenon, which challenges the use of ring oscillators for the design of both PUF and TRNG. The novel architecture using differential structures guarantees high stability of the TERO-PUF. The area of the TERO-PUF is relatively high, but is still comparable with other PUF designs. However, since the same piece of hardware can be used for both PUF and random number generation, the proposed principle offers an interesting low area mixed solution.
Abstract-This paper presents an easy to design Physically Unclonable Function (PUF). The proposed PUF implementation is a loop composed of N identical and controllable delay chains which are serially assembled in a loop to create a single ring oscillator. The frequency discrepancies resulting from the oscillator driven by complementary combinations of the delay chains allows to characterize one device. The presented PUF, nicknamed the Loop PUF (LPUF), returns a frequency comparison of loops made of N delay chains (N ≥ 2). The comparisons are done sequentially on the same structure. Unlike others PUFs based on delays, there is no specific routing constraints. Hence the LPUF is particularly flexible and easy to design. The basic use of the Loop PUF is to generate intrinsic device keys for cryptographic algorithms. It can also be used to generate challenge response pairs for simple authentication. Experiments have been carried out on CYCLONE II FPGAs to assess the performance of the LPUF, such as randomness, uniqueness and steadiness. They clearly show both the easiness of design and the quality level of the LPUF. The measurement time vs steadiness, as well as resistance against side-channel and modeling attacks are discussed.
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