Min-rank conjecture for log-depth circuits

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摘要

A completion of an m-by-n matrix A with entries in {0,1,⁎} is obtained by setting all ⁎-entries to constants 0 and 1. A system of semi-linear equations over GF2 has the form Mx=f(x), where M is a completion of A and f:{0,1}n→{0,1}m is an operator, the ith coordinate of which can only depend on variables corresponding to ⁎-entries in the ith row of A. We conjecture that no such system can have more than 2n−ϵ⋅mr(A) solutions, where ϵ>0 is an absolute constant and mr(A) is the smallest rank over GF2 of a completion of A. The conjecture is related to an old problem of proving super-linear lower bounds on the size of log-depth boolean circuits computing linear operators x↦Mx. The conjecture is also a generalization of a classical question about how much larger can non-linear codes be than linear ones. We prove some special cases of the conjecture and establish some structural properties of solution sets.

论文关键词:Boolean circuits,Partial matrix,Matrix completion,Min-rank,Matrix rigidity,Sum-sets,Cayley graphs,Error-correcting codes

论文评审过程:Received 8 January 2009, Revised 26 August 2009, Accepted 23 September 2009, Available online 27 July 2011.

论文官网地址:https://doi.org/10.1016/j.jcss.2009.09.003