All papers, conference contributions, presentations are available in a separate list and also on our Google scholar page:
https://scholar.google.com/citations?hl=en&user=ZyG1ZGgAAAAJ&view_op=list_works&sortby=pubdate(si apre in una nuova finestra) Please also check our list of EU publications in this periodic report under the tab 'publications' above
This list emphasises the results, exploitation and dissemination beyond the publications and citations.
• Achievement: patent. On the design of True Random Number Generators, the most important achievement we obtained is its portability across different CMOS technologies and FPGAs. Portability of TRNG modules is essential if we want to reuse TRNGs between different technology nodes. A novel approach is published and a patent granted (US patent US10761809). TRNGs and PUFs are essential roots of trust in any embedded system.
• Impact: invitation as partner. As an outcome, we are a partner in the EU Flagship Quantum Computing, QRANGE project. QRANGE is a project on quantum random number generator. Our expertise, as non-quantum partner, is to dissemination our TRNG knowledge into quantum context.
• Impact: NIST standardization. The design, development, implementation and evaluation on a variety of platforms (micro-controllers, FPGA, ASIC) of post-quantum cryptographic algorithms as proposed for the NIST standardization effort, requires the development of new computational building blocks (e.g. NTT based multipliers), and especially new masking techniques to protect against side-channel attacks. These building blocks are generic and can be reused as building blocks for future lattice based crypto designs.
• We have expanded and operate an electronics hardware security lab. Our expertise is recognized by other research groups in the world. We have hosted visiting researchers o.a. from Purdue university, NAIST (Japan), and others to evaluate the side channel and attack resistance of their design. This has resulted in joined publications.
• New development during project: Micro-architectural side-channel attacks are a new discovery during this project time frame. We have contributed to this topic by a highly visible cited paper at the A* conference Usenix 2021.
• The intellectual property (IP) and building blocks are a foundation to support the implementation and acceleration of new generations of cryptographic algorithms and applications, o.a. Fully Homomorphic encryption and Multi Party Computation.
Our work in Cathedral has resulted in 82 publications (33 journal, 40 conference and 9 other), 10 PhDs have graduated between 2017 and 2021 and one patent was granted. To conclude, the electronics security cathedral has become a much sturdier building with stronger foundations, yet as is with all cathedrals, the building is never finished and challenging new topics start from these foundations.