[Resource Topic] 2014/254: Enhanced Lattice-Based Signatures on Reconfigurable Hardware

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Title:
Enhanced Lattice-Based Signatures on Reconfigurable Hardware

Authors: Thomas Pöppelmann, Lëo Ducas, Tim Güneysu

Abstract:

The recent Bimodal Lattice Signature Scheme (BLISS) showed that lattice-based constructions have evolved to practical alternatives to RSA or ECC. It offers small signatures of 5600 bits for a 128-bit level of security, and proved to be very fast in software. However, due to the complex sampling of Gaussian noise with high precision, it is not clear whether this scheme can be mapped efficiently to embedded devices. Even though the authors of BLISS also proposed a new sampling algorithm using Bernoulli variables this approach is more complex than previous methods using large precomputed tables. The clear disadvantage of using large tables for high performance is that they cannot be used on constrained computing environments, such as FPGAs, with limited memory. In this work we thus present techniques for an efficient Cumulative Distribution Table (CDT) based Gaussian sampler on reconfigurable hardware involving Peikert’s convolution lemma and the Kullback-Leibler divergence. Based on our enhanced sampler design, we provide a scalable implementation of BLISS signing and verification on a Xilinx Spartan-6 FPGA supporting either 128-bit, 160-bit, or 192-bit security. For high speed we integrate fast FFT/NTT-based polynomial multiplication, parallel sparse multiplication, Huffman compression of signatures, and Keccak as hash function. Additionally, we compare the CDT with the Bernoulli approach and show that for the particular BLISS-I parameter set the improved CDT approach is faster with lower area consumption. Our BLISS-I core uses 2,291 slices, 5.5 BRAMs, and 5 DSPs and performs a signing operation in 114.1 us on average. Verification is even faster with a latency of 61.2 us and 17,101 supported verification operations per second.

ePrint: https://eprint.iacr.org/2014/254

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