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[Computational Complexity] A New PCP Proof

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  • Lance
    There is some buzz about a new construction of probabilistically checkable proofs by Irit Dinur. The PCP theorem, first proved by Arora, Lund, Motwani, Sudan
    Message 1 of 1 , Apr 19, 2005
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      There is some buzz about a new construction of probabilistically checkable proofs by Irit Dinur. The PCP theorem, first proved by Arora, Lund, Motwani, Sudan and Szegedy in the early 90's, states that every language in NP has a proof that can be verified randomly using O(log n) random bits and a constant number of queries. The PCP theorem has had many applications to showing hardness of approximation results and has had many improvements such as Håstad's tight result that I highlighted last year.

      The previous proofs used considerable algebraic techniques. Dinur takes a more combinatorial approach using a powering and composition technique (inspired by Reingold and the zig-zag product) to separate the gap in 3SAT without increasing the number of variables.

      An upcoming STOC paper by Ben-Sasson and Sudan gives a PCP for SAT of only quasilinear size but requiring polylogarithmic queries to verify the proof. Dinur, by applying her construction to those PCPs, can now create quasilinear-size proofs which only need a constant number of queries for verification.

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      Posted by Lance to Computational Complexity at 4/19/2005 06:52:00 AM

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