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Paper 2021/1347

TOTA: Fully Homomorphic Encryption with Smaller Parameters and Stronger Security

Zhaomin Yang and Xiang Xie and Huajie Shen and Shiying Chen and Jun Zhou

Abstract

We present fully homomorphic encryption schemes for fixed-point arithmetic with fixed precision. Our scheme achieves $\mathsf{IND}$-$\mathsf{CPA^D}$ security and uses $\mathsf{RLWE}$ ring with dimension ${2^{13}}$ or less. Our techniques could also be extended to construct fully homomorphic encryption schemes for approximate numbers with $\mathsf{IND}$-$\mathsf{CPA}$ security. The bootstrapping process of our $\mathsf{IND}$-$\mathsf{CPA}$ scheme preserves about 39-bit precision with ring dimension $2^{13}$, which is the first construction that preserves high precision while keeping the parameters small. The core technique in this paper is a new and efficient functional bootstrapping algorithm that avoids the negacyclicity constraint of the evaluated functions, which enables us to extract bits blocks homomorphically. This new functional bootstrapping algorithm could be applied to BFV and TFHE schemes as well, and is of independent interest.

Metadata
Available format(s)
PDF
Category
Public-key cryptography
Publication info
Preprint. MINOR revision.
Keywords
Fully Homomorphic EncryptionFunctional BootstrappingApproximate Encryption
Contact author(s)
xiexiang @ matrixelements com
History
2021-10-07: received
Short URL
https://ia.cr/2021/1347
License
Creative Commons Attribution
CC BY
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