Archivio Istituzionale della RicercaIn the contemporary security landscape, the incorporation of photonics has emerged as a transformative force, unlocking a spectrum of possibilities to enhance the resilience and effectiveness of security primitives. This integration represents more than a mere technological augmentation; it signifies a paradigm shift towards innovative approaches capable of delivering security primitives with key properties for low-power systems. This not only augments the robustness of security frameworks, but also paves the way for novel strategies that adapt to the evolving challenges of the digital age. This paper discusses the security layers and related services that will be developed, modeled, and evaluated within the Horizon Europe NEUROPULS project. These layers will exploit novel implementations for security primitives based on physical un-clonable functions (PUFs) using integrated photonics technology. Their objective is to provide a series of services to support the secure operation of a neuromorphic photonic accelerator for edge comnuting applications.
Security Layers and Related Services within the Horizon Europe NEUROPULS Project / Pavanello, Fabio; Marchand, Cedric; Jimenez, Paul; Letartre, Xavier; Chaves, Ricardo; Marastoni, Niccolò; Lovato, Alberto; Ceccato, Mariano; Papadimitriou, George; Karakostas, Vasileios; Gizopoulos, Dimitris; Bardini, Roberta; Carmona, Tzamn Melendez; Di Carlo, Stefano; Savino, Alessandro; Lerch, Laurence; Ruhrmair, Ulrich; Gutiérrez, Sergio Vinagrero; Di Natale, Giorgio; Vatajelu, Elena Ioana. - ELETTRONICO. - (2024), pp. 1-6. (Intervento presentato al convegno 2024 Design, Automation & Test in Europe Conference & Exhibition (DATE) tenutosi a Valencia (ESP) nel 25-27 March 2024) [10.23919/date58400.2024.10546706].
Security Layers and Related Services within the Horizon Europe NEUROPULS Project
Bardini, Roberta;Carmona, Tzamn Melendez;Di Carlo, Stefano;Savino, Alessandro;
2024
Abstract
In the contemporary security landscape, the incorporation of photonics has emerged as a transformative force, unlocking a spectrum of possibilities to enhance the resilience and effectiveness of security primitives. This integration represents more than a mere technological augmentation; it signifies a paradigm shift towards innovative approaches capable of delivering security primitives with key properties for low-power systems. This not only augments the robustness of security frameworks, but also paves the way for novel strategies that adapt to the evolving challenges of the digital age. This paper discusses the security layers and related services that will be developed, modeled, and evaluated within the Horizon Europe NEUROPULS project. These layers will exploit novel implementations for security primitives based on physical un-clonable functions (PUFs) using integrated photonics technology. Their objective is to provide a series of services to support the secure operation of a neuromorphic photonic accelerator for edge comnuting applications.
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https://hdl.handle.net/11583/2992204