English

Trinity: A General Purpose FHE Accelerator

Hardware Architecture 2024-10-18 v1 Cryptography and Security

Abstract

In this paper, we present the first multi-modal FHE accelerator based on a unified architecture, which efficiently supports CKKS, TFHE, and their conversion scheme within a single accelerator. To achieve this goal, we first analyze the theoretical foundations of the aforementioned schemes and highlight their composition from a finite number of arithmetic kernels. Then, we investigate the challenges for efficiently supporting these kernels within a unified architecture, which include 1) concurrent support for NTT and FFT, 2) maintaining high hardware utilization across various polynomial lengths, and 3) ensuring consistent performance across diverse arithmetic kernels. To tackle these challenges, we propose a novel FHE accelerator named Trinity, which incorporates algorithm optimizations, hardware component reuse, and dynamic workload scheduling to enhance the acceleration of CKKS, TFHE, and their conversion scheme. By adaptive select the proper allocation of components for NTT and MAC, Trinity maintains high utilization across NTTs with various polynomial lengths and imbalanced arithmetic workloads. The experiment results show that, for the pure CKKS and TFHE workloads, the performance of our Trinity outperforms the state-of-the-art accelerator for CKKS (SHARP) and TFHE (Morphling) by 1.49x and 4.23x, respectively. Moreover, Trinity achieves 919.3x performance improvement for the FHE-conversion scheme over the CPU-based implementation. Notably, despite the performance improvement, the hardware overhead of Trinity is only 85% of the summed circuit areas of SHARP and Morphling.

Keywords

Cite

@article{arxiv.2410.13405,
  title  = {Trinity: A General Purpose FHE Accelerator},
  author = {Xianglong Deng and Shengyu Fan and Zhicheng Hu and Zhuoyu Tian and Zihao Yang and Jiangrui Yu and Dingyuan Cao and Dan Meng and Rui Hou and Meng Li and Qian Lou and Mingzhe Zhang},
  journal= {arXiv preprint arXiv:2410.13405},
  year   = {2024}
}

Comments

To be appeared in MICRO 2024. The first ASIC-based FHE accelerator which supports both CKKS, TFHE and their conversions. Provide new SOTA performance record for CKKS, TFHE and conversion

R2 v1 2026-06-28T19:25:37.223Z