Reducing the Multiplicative Complexity in Logic Networks for Cryptography and Security Applications
Testa, Eleonora; Soeken, Mathias; Amarù, Luca Gaetano; De Micheli, Giovanni
2019

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Abstract

Reducing the number of AND gates plays a central role in many cryptography and security applications. We propose a logic synthesis algorithm and tool to minimize the number of AND gates in a logic network composed of AND, XOR, and inverter gates. Our approach is fully automatic and exploits cut enumeration algorithms to explore optimization potentials in local subcircuits. The experimental results show that our approach can reduce the number of AND gates by 34% on average compared to generic size optimization algorithms. Further, we are able to reduce the number of AND gates up to 76% in best-known benchmarks from the cryptography community.

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Title Reducing the Multiplicative Complexity in Logic Networks for Cryptography and Security Applications
Author(s) Testa, Eleonora ; Soeken, Mathias ; Amarù, Luca Gaetano ; De Micheli, Giovanni
Published in Proceedings of the 2019 56th ACM/Edac/IEEE Design Automation Conference (Dac)
Pages 74
Conference DAC19, Las Vegas, June 2-6, 2019
Date 2019-06-06
Publisher ASSOC COMPUTING MACHINERY, New York
DOI https://doi.org/10.1145/3316781.3317893
Other identifier(s) View record in Web of Science
Laboratories LSI1
Record Appears in Scientific production and competences > I&C - School of Computer and Communication Sciences > IINFCOM > LSI1 - Integrated Systems Laboratory 1 (STI/IC)
Peer-reviewed publications
Conference Papers
Work produced at EPFL
Published
Record creation date 2019-06-06

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