Engorgio: An Arbitrary-Precision Unbounded-Size Hybrid Encrypted Database via Quantized Fully Homomorphic Encryption

Song Bian; Haowen Pan; Jiaqi Hu; Zhou Zhang; Yunhao Fu; Jiafeng Hua; Yi Chen; Bo Zhang; Yier Jin; Jin Dong; Zhenyu Guan

Paper 2025/198

Engorgio: An Arbitrary-Precision Unbounded-Size Hybrid Encrypted Database via Quantized Fully Homomorphic Encryption

Song Bian, Beihang University

Haowen Pan, Beihang University

Jiaqi Hu, Beihang University

Zhou Zhang, Beihang University

Yunhao Fu, Beihang University

Jiafeng Hua, Huawei Technology

Yi Chen, Beijing Academy of Blockchain and Edge Computing

Bo Zhang, Beijing Academy of Blockchain and Edge Computing

Yier Jin, University of Science and Technology of China

Jin Dong, Beijing Academy of Blockchain and Edge Computing

Zhenyu Guan, Beihang University

Abstract

This work proposes an encrypted hybrid database framework that combines vectorized data search and relational data query over quantized fully homomorphic encryption (FHE). We observe that, due to the lack of efficient encrypted data ordering capabilities, most existing encrypted database (EDB) frameworks do not support hybrid queries involving both vectorized and relational data. To further enrich query expressiveness while retaining evaluation efficiency, we propose Engorgio, a hybrid EDB framework based on quantized data ordering techniques over FHE. Specifically, we design a new quantized data encoding scheme along with a set of novel comparison and permutation algorithms to accurately generate and apply orders between large-precision data items. Furthermore, we optimize specific query types, including full table scan, batched query, and Top-k query to enhance the practical performance of the proposed framework. In the experiment, we show that, compared to the state-of-the-art EDB frameworks, Engorgio is up to 28x--854x faster in homomorphic comparison, 65x--687x faster in homomorphic sorting and 15x--1,640x faster over a variety of end-to-end relational, vectorized, and hybrid SQL benchmarks. Using Engorgio, the amortized runtime for executing a relational and hybrid query on a 48-core processor is under 3 and 75 seconds, respectively, over a 10K-row hybrid database.

Metadata

Available format(s): PDF
Category: Cryptographic protocols
Publication info: Published elsewhere. Minor revision. USENIX Security 25
Keywords: Homomorphic Encryption Encrypted Database Homomorphic Sorting Vector Search
Contact author(s): sbian @ buaa edu cn
panhaowen @ buaa edu cn
History: 2025-04-02: last of 2 revisions; 2025-02-11: received; See all versions
Short URL: https://ia.cr/2025/198
License: CC BY

BibTeX

@misc{cryptoeprint:2025/198,
      author = {Song Bian and Haowen Pan and Jiaqi Hu and Zhou Zhang and Yunhao Fu and Jiafeng Hua and Yi Chen and Bo Zhang and Yier Jin and Jin Dong and Zhenyu Guan},
      title = {Engorgio: An Arbitrary-Precision Unbounded-Size Hybrid Encrypted Database via Quantized Fully Homomorphic Encryption},
      howpublished = {Cryptology {ePrint} Archive, Paper 2025/198},
      year = {2025},
      url = {https://eprint.iacr.org/2025/198}
}