English

Efficient Arithmetic-and-Comparison Homomorphic Encryption with Space Switching

Cryptography and Security 2026-04-23 v1

Abstract

Fully homomorphic encryption (FHE) enables computation on encrypted data without decryption, making it central to privacy-preserving applications. However, no existing scheme efficiently supports both arithmetic and comparison operations in a unified framework. Prior approaches such as scheme switching and polynomial approximation face serious limitations: switching incurs prohibitive overhead for large inputs, while approximation methods introduce errors near critical points, restricting use in accuracy-sensitive tasks. We propose space switching method to integrate arithmetic and comparison computation seamlessly within FV-style schemes. Our approach identifies that the two types of operations require different plaintext spaces and introduces two procedures: a reduction step to transition from the number space Zpr\mathbb{Z}_{p^r} to the digit space Zp\mathbb{Z}_{p}, and a modulus-raising step to map results back to Zpr\mathbb{Z}_{p^r}. This design enables continuous evaluation of arithmetic and comparison within the same scheme. Experiments show that our method achieves up to 17×17\times faster performance than scheme switching and 15×15\times faster than direct comparison on database workloads, demonstrating its practicality for real-world privacy-preserving computation. Code and artifacts are available at https://github.com/UCF-Lou-Lab-PET/Universal-BGV.

Keywords

Cite

@article{arxiv.2604.19890,
  title  = {Efficient Arithmetic-and-Comparison Homomorphic Encryption with Space Switching},
  author = {Erwin Eko Wahyudi and Yan Solihin and Qian Lou},
  journal= {arXiv preprint arXiv:2604.19890},
  year   = {2026}
}

Comments

Accepted by IEEE Symposium on Security and Privacy 2026

R2 v1 2026-07-01T12:29:10.854Z