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Paper 2024/1637

Bootstrapping Small Integers With CKKS

Youngjin Bae, CryptoLab Inc.
Jaehyung Kim, CryptoLab Inc.
Damien Stehlé, CryptoLab Inc.
Elias Suvanto, CryptoLab Inc., University of Luxembourg
Abstract

The native plaintexts of the Cheon-Kim-Kim-Song (CKKS) fully homomorphic encryption scheme are vectors of approximations to complex numbers. Drucker et al. [J. Cryptol.'24] have showed how to use CKKS to efficiently perform computations on bits and small bit-length integers, by relying on their canonical embeddings into the complex plane. For small bit-length integers, Chung et al. [IACR eprint'24] recently suggested to rather rely on an embedding into complex roots of unity, to gain numerical stability and efficiency. Both works use CKKS in a black-box manner. Inspired by the design by Bae et al. [Eurocrypt'24] of a dedicated bootstrapping algorithm for ciphertexts encoding bits, we propose a CKKS bootstrapping algorithm, $\mathsf{SI\mbox{-}BTS}$ (small-integer bootstrapping), for ciphertexts encoding small bit-length integers. For this purpose, we build upon the DM/CGGI-to-CKKS conversion algorithm from Boura et al. [J. Math. Cryptol.'20], to bootstrap canonically embedded integers to integers embedded as roots of unity. $\mathsf{SI\mbox{-}BTS}$ allows functional bootstrapping: it can evaluate an arbitrary function of its input while bootstrapping. It may also be used to batch-(functional-)bootstrap multiple DM/CGGI ciphertexts. For example, its amortized cost for evaluating an 8-bit look-up table on $2^{12}$ DM/CGGI ciphertexts is 3.75ms (single-thread CPU, 128-bit security). We adapt $\mathsf{SI\mbox{-}BTS}$ to simultaneously bootstrap multiple CKKS ciphertexts for bits. The resulting $\mathsf{BB\mbox{-}BTS}$ algorithm (batch-bits bootstrapping) allows to decrease the amortized cost of a binary gate evaluation. Compared to Bae et al., it gives a 2.4x speed-up.

Metadata
Available format(s)
PDF
Category
Public-key cryptography
Publication info
Published by the IACR in ASIACRYPT 2024
Keywords
Fully Homomorphic EncryptionBootstrappingBinary CircuitsFunctional Bootstrapping
Contact author(s)
youngjin bae @ cryptolab co kr
jaehk @ stanford edu
damien stehle @ cryptolab co kr
elias suvanto @ cryptolab co kr
History
2024-10-14: approved
2024-10-11: received
See all versions
Short URL
https://ia.cr/2024/1637
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2024/1637,
      author = {Youngjin Bae and Jaehyung Kim and Damien Stehlé and Elias Suvanto},
      title = {Bootstrapping Small Integers With {CKKS}},
      howpublished = {Cryptology {ePrint} Archive, Paper 2024/1637},
      year = {2024},
      url = {https://eprint.iacr.org/2024/1637}
}
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