Implementing RLWE-based Schemes Using an RSA Co-Processor

Martin R. Albrecht; Christian Hanser; Andrea Hoeller; Thomas Pöppelmann; Fernando Virdia; Andreas Wallner

doi:10.13154/tches.v2019.i1.169-208

Implementing RLWE-based Schemes Using an RSA Co-Processor

Authors

Martin R. Albrecht Information Security Group, Royal Holloway, University of London
Christian Hanser Infineon Technologies Austria AG
Andrea Hoeller Infineon Technologies Austria AG
Thomas Pöppelmann Infineon Technologies Austria AG
Fernando Virdia Information Security Group, Royal Holloway, University of London
Andreas Wallner Infineon Technologies Austria AG

DOI:

https://doi.org/10.13154/tches.v2019.i1.169-208

Keywords:

learning with errors, smart card, implementation

Abstract

We repurpose existing RSA/ECC co-processors for (ideal) lattice-based cryptography by exploiting the availability of fast long integer multiplication. Such co-processors are deployed in smart cards in passports and identity cards, secured microcontrollers and hardware security modules (HSM). In particular, we demonstrate an implementation of a variant of the Module-LWE-based Kyber Key Encapsulation Mechanism (KEM) that is tailored for high performance on a commercially available smart card chip (SLE 78). To benefit from the RSA/ECC co-processor we use Kronecker substitution in combination with schoolbook and Karatsuba polynomial multiplication. Moreover, we speed-up symmetric operations in our Kyber variant using the AES co-processor to implement a PRNG and a SHA-256 co-processor to realise hash functions. This allows us to execute CCA-secure Kyber768 key generation in 79.6 ms, encapsulation in 102.4 ms and decapsulation in 132.7 ms.

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Published

2018-11-09

How to Cite

Albrecht, M. R., Hanser, C., Hoeller, A., Pöppelmann, T., Virdia, F., & Wallner, A. (2018). Implementing RLWE-based Schemes Using an RSA Co-Processor. IACR Transactions on Cryptographic Hardware and Embedded Systems, 2019(1), 169–208. https://doi.org/10.13154/tches.v2019.i1.169-208