CryptoDB

Paper: Parallelizable Delegation from LWE

Authors: Cody Freitag , Cornell Tech Rafael Pass , Cornell Tech and Tel Aviv University Naomi Sirkin , Cornell Tech Search ePrint Search Google Slides TCC 2022 We present the first non-interactive delegation scheme for P with time-tight parallel prover efficiency based on standard hardness assumptions. More precisely, in a time-tight delegation scheme—which we refer to as a SPARG (succinct parallelizable argument)—the prover’s parallel running time is t + polylog(t), while using only polylog(t) processors and where t is the length of the computation. (In other words, the proof is computed essentially in parallel with the computation, with only some minimal additive overhead in terms of time). Our main results show the existence of a publicly-verifiable, non-interactive, SPARG for P assuming polynomial hardness of LWE. Our SPARG construction relies on the elegant recent delegation construction of Choudhuri, Jain, and Jin (FOCS’21) and combines it with techniques from Ephraim et al (EuroCrypt’20). We next demonstrate how to make our SPARG time-independent—where the prover and verifier do not need to known the running-time t in advance; as far as we know, this yields the first construction of a time-tight delegation scheme with time-independence based on any hardness assumption. We finally present applications of SPARGs to the constructions of VDFs (Boneh et al, Crypto’18), resulting in the first VDF construction from standard polynomial hardness assumptions (namely LWE and the minimal assumption of a sequentially hard function).
BibTeX
@inproceedings{tcc-2022-32564,
title={Parallelizable Delegation from LWE},
publisher={Springer-Verlag},
author={Cody Freitag and Rafael Pass and Naomi Sirkin},
year=2022
}