We initiate the study of the tradeoff between the length of a probabilistically checkable proof of proximity (PCPP) and the maximal soundness that can be guaranteed by a 3-query verifier with oracle access to the proof. Our main observation is that a verifier limited to querying a short proof cannot obtain the same soundness as that obtained by a verifier querying a long proof. Moreover, we quantify the soundness deficiency as a function of the proof-length and show that any verifier obtaining “best possible ” soundness must query an exponentially long proof. In terms of techniques, we focus on the special class of inspective verifiers that read at most 2 proof-bits per invocation. For such verifiers we prove exponential length-soundness tr...
A probabilistically Checkable Proof (PCP) allows a randomized verifier, with oracle access to a purp...
The celebrated PCP Theorem states that any language in NP can be decided via a verifier that reads O...
Abstract: In this paper, we describe a proof-of-concept implementation of the probabilistically chec...
We show that every language in NP has a probabilistically checkable proof of proximity (i.e., proofs...
We continue the study of the trade-o between the length of PCPs and their query complexity, establi...
Approximation algorithms have been studied to cope with computationally hard combinatorial problems ...
The PCP theorem (Arora et. al., J. ACM 45(1,3)) says that every NP-proof can be encoded to another p...
The error probability of Probabilistically Checkable Proof (PCP) systems can be made exponentially s...
We study interactive oracle proofs (IOPs) [BCS16,RRR16], which combine aspects of probabilistically ...
Proofs of proximity are probabilistic proof systems in which the verifier only queries a sub-linear ...
We give constructions of probabilistically checkable proofs (PCPs) of length n · polylog n proving s...
We show that there exist properties that are maximally hard for testing, while still admitting PCPPs...
We initiate a study of non-interactive proofs of proximity. These proof systems consist of a verifie...
Probabilistically checkable proofs (PCPs) can be verified based only on a constant amount of random ...
AbstractWe investigate the question of when a verifier, with the aid of a proof, can reliably comput...
A probabilistically Checkable Proof (PCP) allows a randomized verifier, with oracle access to a purp...
The celebrated PCP Theorem states that any language in NP can be decided via a verifier that reads O...
Abstract: In this paper, we describe a proof-of-concept implementation of the probabilistically chec...
We show that every language in NP has a probabilistically checkable proof of proximity (i.e., proofs...
We continue the study of the trade-o between the length of PCPs and their query complexity, establi...
Approximation algorithms have been studied to cope with computationally hard combinatorial problems ...
The PCP theorem (Arora et. al., J. ACM 45(1,3)) says that every NP-proof can be encoded to another p...
The error probability of Probabilistically Checkable Proof (PCP) systems can be made exponentially s...
We study interactive oracle proofs (IOPs) [BCS16,RRR16], which combine aspects of probabilistically ...
Proofs of proximity are probabilistic proof systems in which the verifier only queries a sub-linear ...
We give constructions of probabilistically checkable proofs (PCPs) of length n · polylog n proving s...
We show that there exist properties that are maximally hard for testing, while still admitting PCPPs...
We initiate a study of non-interactive proofs of proximity. These proof systems consist of a verifie...
Probabilistically checkable proofs (PCPs) can be verified based only on a constant amount of random ...
AbstractWe investigate the question of when a verifier, with the aid of a proof, can reliably comput...
A probabilistically Checkable Proof (PCP) allows a randomized verifier, with oracle access to a purp...
The celebrated PCP Theorem states that any language in NP can be decided via a verifier that reads O...
Abstract: In this paper, we describe a proof-of-concept implementation of the probabilistically chec...