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Design and Evaluation of a Printed Analog-Based Differential Physical Unclonable Function

  • A physical unclonable function (PUF) is a hardware circuit that produces a random sequence based on its manufacturing-induced intrinsic characteristics. In the past decade, silicon-based PUFs have been extensively studied as a security primitive for identification and authentication. The emerging field of printed electronics (PE) enables novel application fields in the scope of the Internet ofA physical unclonable function (PUF) is a hardware circuit that produces a random sequence based on its manufacturing-induced intrinsic characteristics. In the past decade, silicon-based PUFs have been extensively studied as a security primitive for identification and authentication. The emerging field of printed electronics (PE) enables novel application fields in the scope of the Internet of Things (IoT) and smart sensors. In this paper, we design and evaluate a printed differential circuit PUF (DiffC-PUF). The simulation data are verified by Monte Carlo analysis. Our design is highly scalable while consisting of a low number of printed transistors. Furthermore, we investigate the best operating point by varying the PUF challenge configuration and analyzing the PUF security metrics in order to achieve high robustness. At the best operating point, the results show areliability of 98.37% and a uniqueness of 50.02%, respectively. This analysis also provides useful and comprehensive insights into the design of hybrid or fully printed PUF circuits. In addition, the proposed printed DiffC-PUF core has been fabricated with electrolyte-gated field-effect transistor technology to verify our design in hardware.show moreshow less

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Metadaten
Document Type:Article (reviewed)
Zitierlink: https://opus.hs-offenburg.de/3867
Bibliografische Angaben
Title (English):Design and Evaluation of a Printed Analog-Based Differential Physical Unclonable Function
Author:Lukas ZimmermannStaff MemberORCiDGND, Alexander ScholzStaff MemberORCiD, Mehdi Baradaran Tahoori, Jasmin Aghassi-HagmannStaff MemberORCiDGND, Axel SikoraStaff MemberORCiDGND
Year of Publication:2019
Publisher:IEEE
First Page:2498
Last Page:2510
Parent Title (English):IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Volume:27
Issue:11
ISSN:1557-9999
DOI:https://doi.org/10.1109/TVLSI.2019.2924081
Language:English
Inhaltliche Informationen
Institutes:Forschung / ivESK - Institut für verlässliche Embedded Systems und Kommunikationselektronik
Fakultät Elektrotechnik, Medizintechnik und Informatik (EMI) (ab 04/2019)
Institutes:Bibliografie
Formale Angaben
Licence (German):License LogoUrheberrechtlich geschützt