Approximating orthogonal matrices by permutation matrices

Abstract

Motivated in part by a problem of combinatorial optimization and in part by analogies with quantum computations, we consider approximations of orthogonal matrices U by ``non-commutative convex combinations'' A of permutation matrices of the type A=sum Asigma sigma, where sigma are permutation matrices and Asigma are positive semidefinite nxn matrices summing up to the identity matrix. We prove that for every nxn orthogonal matrix U there is a non-commutative convex combination A of permutation matrices which approximates U entry-wise within an error of c n-1/2ln n and in the Frobenius norm within an error of c ln n. The proof uses a certain procedure of randomized rounding of an orthogonal matrix to a permutation matrix.

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