Low-Latency Elliptic Curve Scalar Multiplication

This paper presents a low-latency algorithm designed for parallel computer architectures to compute the scalar multiplication of elliptic curve points based on approaches from cryptographic side-channel analysis. A graphics processing unit implementation using a standardized elliptic curve over a 224-bit prime field, complying with the new 112-bit security level, computes the scalar multiplication in 1.9 ms on the NVIDIA GTX 500 architecture family. The presented methods and implementation considerations can be applied to any parallel 32-bit architecture.

Low-Latency Elliptic Curve Scalar Multiplication

Graph Chatbot

Side-channel analysis of isogeny-based key encapsulation mechanisms and hash-based digital signatures

Secure and Efficient Cryptographic Algorithms in a Quantum World

EdgeAI-Aware Design of In-Memory Computing Architectures

Secure and Efficient Cryptographic Algorithms in a Quantum World

EdgeAI-Aware Design of In-Memory Computing Architectures

Side-channel analysis of isogeny-based key encapsulation mechanisms and hash-based digital signatures