Abstract
Abstract In this note, we assess the efficiency of a supersingular isogeny Diffie-Hellman (SIDH)-based digital signature built on a weaker variant of a recent identification protocol proposed by Basso et al. Despite the devastating attacks against (the mathematical problem underlying) SIDH, this identification protocol remains secure, as its security is backed by a different (and more standard) isogeny-finding problem. We conduct our analysis by applying some known cryptographic techniques to decrease the signature size by about 70% for all parameter sets (obtaining signatures of approximately 21 kB for SIKE p 434 {\mathsf{SIKE}}{\mathsf{p}}434 ). Moreover, we propose a minor optimisation to compute many isogenies in parallel from the same starting curve. Our assessment confirms that determining the most efficient methods for isogeny-based signature schemes, including optimisations such as those presented in this paper, is still a open problem, with much more work to be done.
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