Faster and Simpler Width-Independent Parallel Algorithms for Positive Semidefinite Programming

Abstract

This paper studies the problem of finding an (1+ε)-approximate solution to positive semidefinite programs. These are semidefinite programs in which all matrices in the constraints and objective are positive semidefinite and all scalars are non-negative. We present a simpler parallel algorithm that on input with n constraint matrices, requires O(1ε3 log3 n) iterations, each of which involves only simple matrix operations and computing the trace of the product of a matrix exponential and a positive semidefinite matrix. Further, given a positive SDP in a factorized form, the total work of our algorithm is nearly-linear in the number of non-zero entries in the factorization.