The class of sufficient matrices is important in the study of the linear complementarity problem(LCP) - some interior point methods (IPM's) for LCP's with sufficient data matrices have complexity polynomial in the bit size of the matrix and its handicap. In this paper we show that the handicap of a sufficient matrix may be exponential in its bit size, implying that the known complexity bounds of interior point methods are not polynomial in the input size of the LCP problem. We also introduce a semidefinite programming based heuristic, that provides a finite upper bond on the handicap, for the sub-class of P-matrices (where all principal minors are positive).
Preprint Tilburg University, The Netherlands, February 2010.
View On the complexity of computing the handicap of a sufficient matrix