Cheddar：适用于 CUDA GPU 的 Swift 全同态加密库

arXiv - CS - Performance Pub Date : 2024-07-17 DOI:arxiv-2407.13055

Jongmin Kim, Wonseok Choi, Jung Ho Ahn

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引用次数: 0

摘要

全同态加密（FHE）是一种加密技术，能够通过加密使用中的数据来解决云计算中的安全和隐私问题。然而，FHE 在处理加密数据时引入了巨大的计算开销，导致 FHE 工作负载比未加密工作负载慢 2-6 个数量级。为了减少这种开销，我们提出了 Cheddar，这是一个用于 CUDA GPU 的 FHE 库，与之前的 GPU 实现相比，它的性能显著提高。我们在不同的实现层面开发了优化功能，从高效的底层基元到精简的高层操作序列。特别是，我们基于使用 32 位小字的高效内核设计，改进了主要的 FHE 操作，包括数论变换和基数转换。通过这些方法，与之前的 GPU 实现相比，Cheddar 在具有代表性的 FHE 工作负载上的性能提高了 2.9 到 25.6 倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cheddar: A Swift Fully Homomorphic Encryption Library for CUDA GPUs

Fully homomorphic encryption (FHE) is a cryptographic technology capable of resolving security and privacy problems in cloud computing by encrypting data in use. However, FHE introduces tremendous computational overhead for processing encrypted data, causing FHE workloads to become 2-6 orders of magnitude slower than their unencrypted counterparts. To mitigate the overhead, we propose Cheddar, an FHE library for CUDA GPUs, which demonstrates significantly faster performance compared to prior GPU implementations. We develop optimized functionalities at various implementation levels ranging from efficient low-level primitives to streamlined high-level operational sequences. Especially, we improve major FHE operations, including number-theoretic transform and base conversion, based on efficient kernel designs using a small word size of 32 bits. By these means, Cheddar demonstrates 2.9 to 25.6 times higher performance for representative FHE workloads compared to prior GPU implementations.

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arXiv - CS - Performance

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