Osiris: A Systolic Approach to Accelerating Fully Homomorphic Encryption

August 18, 2024 Β· Declared Dead Β· πŸ› ACM Transactions on Architecture and Code Optimization (TACO)

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Authors Austin Ebel, Brandon Reagen arXiv ID 2408.09593 Category cs.CR: Cryptography & Security Citations 4 Venue ACM Transactions on Architecture and Code Optimization (TACO) Last Checked 4 months ago
Abstract
In this paper we show how fully homomorphic encryption (FHE) can be accelerated using a systolic architecture. We begin by analyzing FHE algorithms and then develop systolic or systolic-esque units for each major kernel. Connecting units is challenging due to the different data access and computational patterns of the kernels. We overcome this by proposing a new data tiling technique that we name limb interleaving. Limb interleaving creates a common data input/output pattern across all kernels that allows the entire architecture, named Osiris, to operate in lockstep. Osiris is capable of processing key-switches, bootstrapping, and full neural network inferences with high utilization across a range of FHE parameters. To achieve high performance, we propose a new giant-step centric (GSC) dataflow that efficiently maps state-of-the-art FHE matrix-vector product algorithms onto Osiris by optimizing for reuse and parallelism. Our evaluation of Osiris shows it outperforms the prior state-of-the-art accelerator on all standard benchmarks.
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