Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors
Designing efficient system for digital connectivity preserving information security remains a challenge. Here, the authors present hardware-intrinsic security solutions based on physical unclonable functions incorporating an inkjet-printed core circuit as an intrinsic source of entropy, integrated i...
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Nature Portfolio
2020
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oai:doaj.org-article:926535f304e34e829c1c2453234817ef2021-12-02T17:31:39ZHybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors10.1038/s41467-020-19324-52041-1723https://doaj.org/article/926535f304e34e829c1c2453234817ef2020-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-19324-5https://doaj.org/toc/2041-1723Designing efficient system for digital connectivity preserving information security remains a challenge. Here, the authors present hardware-intrinsic security solutions based on physical unclonable functions incorporating an inkjet-printed core circuit as an intrinsic source of entropy, integrated into a silicon-based CMOS system environment.Alexander ScholzLukas ZimmermannUlrich GengenbachLiane KokerZehua ChenHorst HahnAxel SikoraMehdi B. TahooriJasmin Aghassi-HagmannNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-11 (2020) |
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Science Q Alexander Scholz Lukas Zimmermann Ulrich Gengenbach Liane Koker Zehua Chen Horst Hahn Axel Sikora Mehdi B. Tahoori Jasmin Aghassi-Hagmann Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
description |
Designing efficient system for digital connectivity preserving information security remains a challenge. Here, the authors present hardware-intrinsic security solutions based on physical unclonable functions incorporating an inkjet-printed core circuit as an intrinsic source of entropy, integrated into a silicon-based CMOS system environment. |
format |
article |
author |
Alexander Scholz Lukas Zimmermann Ulrich Gengenbach Liane Koker Zehua Chen Horst Hahn Axel Sikora Mehdi B. Tahoori Jasmin Aghassi-Hagmann |
author_facet |
Alexander Scholz Lukas Zimmermann Ulrich Gengenbach Liane Koker Zehua Chen Horst Hahn Axel Sikora Mehdi B. Tahoori Jasmin Aghassi-Hagmann |
author_sort |
Alexander Scholz |
title |
Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
title_short |
Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
title_full |
Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
title_fullStr |
Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
title_full_unstemmed |
Hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
title_sort |
hybrid low-voltage physical unclonable function based on inkjet-printed metal-oxide transistors |
publisher |
Nature Portfolio |
publishDate |
2020 |
url |
https://doaj.org/article/926535f304e34e829c1c2453234817ef |
work_keys_str_mv |
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_version_ |
1718380567532142592 |