International Association for Cryptologic Research

International Association
for Cryptologic Research


Paper: Scalable and Transparent Proofs over All Large Fields, via Elliptic Curves (ECFFT Part II)

Eli Ben Sasson , StarkWare
Dan Carmon , StarkWare
Swastik Kopparty , University of Toronto
David Levit , StarkWare
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Presentation: Slides
Conference: TCC 2022
Abstract: Concretely efficient interactive oracle proofs (IOPs) are of interest due to their applications to scaling blockchains, their minimal security assumptions, and their potential future-proof resistance to quantum attacks. Scalable IOPs, in which prover time scales quasilinearly with the computation size and verifier time scales poly-logarithmically with it, have been known to exist thus far only over a set of finite fields of negligible density, namely, over ``FFT-friendly'' fields that contain a sub-group of size $2^\rounds$. Our main result is to show that scalable IOPs can be constructed over \emph{any} sufficiently large finite field, of size that is at least quadratic in the length of computation whose integrity is proved by the IOP. This result has practical applications as well, because it reduces the proving and verification complexity of cryptographic statements that are naturally stated over pre-defined finite fields which are not ``FFT-friendly''. Prior state-of-the-art scalable IOPs relied heavily on arithmetization via univariate polynomials and Reed--Solomon codes over FFT-friendly fields. To prove our main result and extend scalability to all large finite fields, we generalize the prior techniques and use new algebraic geometry codes evaluated on sub-groups of elliptic curves (elliptic curve codes). We also show a new arithmetization scheme that uses the rich and well-understood group structure of elliptic curves to reduce statements of computational integrity to other statements about the proximity of functions evaluated on the elliptic curve to the new family of elliptic curve codes.
  title={Scalable and Transparent Proofs over All Large Fields, via Elliptic Curves (ECFFT Part II)},
  author={Eli Ben Sasson and Dan Carmon and Swastik Kopparty and David Levit},