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Zero-Knowledge IOPs with Linear-Time Prover and Polylogarithmic-Time Verifier

Authors:
Jonathan Bootle , IBM Research – Zurich
Alessandro Chiesa , EPFL
Siqi Liu , UC Berkeley
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Presentation: Slides
Conference: EUROCRYPT 2022
Abstract: Interactive oracle proofs (IOPs) are a multi-round generalization of probabilistically checkable proofs that play a fundamental role in the construction of efficient cryptographic proofs. We present an IOP that simultaneously achieves the properties of zero knowledge, linear-time proving, and polylogarithmic-time verification. We construct a zero-knowledge IOP where, for the satisfiability of an $N$-gate arithmetic circuit over any field of size $\Omega(N)$, the prover uses $O(N)$ field operations and the verifier uses $\polylog(N)$ field operations (with proof length $O(N)$ and query complexity $\polylog(N)$). Polylogarithmic verification is achieved in the holographic setting for every circuit (the verifier has oracle access to a linear-time-computable encoding of the circuit whose satisfiability is being proved). Our result implies progress on a basic goal in the area of efficient zero knowledge. Via a known transformation, we obtain a zero knowledge argument system where the prover runs in linear time and the verifier runs in polylogarithmic time; the construction is plausibly post-quantum and only makes a black-box use of lightweight cryptography (collision-resistant hash functions).
Video from EUROCRYPT 2022
BibTeX
@inproceedings{eurocrypt-2022-31905,
  title={Zero-Knowledge IOPs with Linear-Time Prover and Polylogarithmic-Time Verifier},
  publisher={Springer-Verlag},
  author={Jonathan Bootle and Alessandro Chiesa and Siqi Liu},
  year=2022
}