Accelerating Finite Field Arithmetic for Homomorphic Encryption on GPUs

Accelerating Finite Field Arithmetic for Homomorphic Encryption on GPUs

Fully Homomorphic Encryption (FHE) is a rapidly developing technology that enables computation directly on encrypted data, making it a compelling solution for security in cloud-based systems. In addition, modern FHE schemes are believed to be resistant to quantum attacks. Although FHE offers unprece...

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Veröffentlicht in:IEEE MICRO 2023-09, Vol.43 (5), p.1-9
Hauptverfasser: Livesay, Neal, Jonatan, Gilbert, Mora, Evelio, Shivdikar, Kaustubh, Agrawal, Rashmi, Joshi, Ajay, Abellan, Jose L., Kim, John, Kaeli, David
Format: Artikel
Sprache:eng
Schlagworte:
Arithmetic
Cloud computing
Computational efficiency
Cybersecurity
Encryption
Fields (mathematics)
Graphics processing units
Homomorphic encryption
Libraries
Multiplication
Parallel processing
Polynomials
Transforms
Upper bound
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Zusammenfassung:Fully Homomorphic Encryption (FHE) is a rapidly developing technology that enables computation directly on encrypted data, making it a compelling solution for security in cloud-based systems. In addition, modern FHE schemes are believed to be resistant to quantum attacks. Although FHE offers unprecedented potential for security, current implementations suffer from prohibitively high latency. Finite field arithmetic operations, particularly the multiplication of high-degree polynomials, are key computational bottlenecks. The parallel processing capabilities provided by modern Graphical Processing Units (GPUs) make them compelling candidates to target these highly parallelizable workloads. In this article, we discuss methods to accelerate polynomial multiplication with GPUs, with the goal of making FHE practical.
ISSN:0272-1732
1937-4143
DOI:10.1109/MM.2023.3253052