Biblio

Filters: Author is Verbauwhede, Ingrid  [Clear All Filters]
2018-02-02
Liu, Zhe, Pöppelmann, Thomas, Oder, Tobias, Seo, Hwajeong, Roy, Sujoy Sinha, Güneysu, Tim, Großschädl, Johann, Kim, Howon, Verbauwhede, Ingrid.  2017.  High-Performance Ideal Lattice-Based Cryptography on 8-Bit AVR Microcontrollers. ACM Trans. Embed. Comput. Syst.. 16:117:1–117:24.
Over recent years lattice-based cryptography has received much attention due to versatile average-case problems like Ring-LWE or Ring-SIS that appear to be intractable by quantum computers. In this work, we evaluate and compare implementations of Ring-LWE encryption and the bimodal lattice signature scheme (BLISS) on an 8-bit Atmel ATxmega128 microcontroller. Our implementation of Ring-LWE encryption provides comprehensive protection against timing side-channels and takes 24.9ms for encryption and 6.7ms for decryption. To compute a BLISS signature, our software takes 317ms and 86ms for verification. These results underline the feasibility of lattice-based cryptography on constrained devices.