CryptoDB
Succinct Interactive Oracle Proofs: Applications and Limitations
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| Presentation: | Slides |
| Conference: | CRYPTO 2022 |
| Abstract: | Interactive Oracle Proofs (IOPs) are a new type of proof-system that combines key properties of interactive proofs and PCPs: IOPs enable a verifier to be convinced of the correctness of a statement by interacting with an untrusted prover while reading just a few bits of the messages sent by the prover. IOPs have become very prominent in the design of efficient proof-systems in recent years. In this work we study succinct IOPs, which are IOPs in which the communication complexity is polynomial (or even linear) in the original witness. While there are strong impossibility results for the existence of succinct PCPs (i.e., PCPs whose length is polynomial in the witness), it is known that the rich class of NP relations that are decidable in small space have succinct IOPs. In this work we show both new applications, and limitations, for succinct IOPs: 1. First, using one-way functions, we show how to compile IOPs into zero-knowledge proofs, while nearly preserving the proof length. This complements a recent line of work, initiated by Ben Sasson et al. (TCC,2016B), who compileIOPs into super-succinct zero-knowledge arguments. Applying the compiler to the state-of-the-art succinctIOPs yields zero-knowledge proofs for bounded-space NP relations, with communication that is nearly equal to the original witness length. This yields the shortest known zero-knowledge proofs from the minimal assumption of one-way functions. 2. Second, we give a barrier for obtaining succinct IOPs for more general NP relations. In particular, we show that if a language has a succinct IOP, then it can be decided in space that is proportionate only to the witness length, after a bounded-time probabilistic preprocessing. We use this result to show that under a simple and plausible (but to the best of our knowledge, new) complexity-theoretic conjecture, there is no succinct IOP for CSAT. |
Video from CRYPTO 2022
BibTeX
@inproceedings{crypto-2022-32192,
title={Succinct Interactive Oracle Proofs: Applications and Limitations},
publisher={Springer-Verlag},
author={Shafik Nassar and Ron Rothblum},
year=2022
}