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A global dual error bound and its application to the analysis of linearly constrained nonconvex optimization

Error bound analysis, which estimates the distance of a point to the solution set of an optimization problem using the optimality residual, is a powerful tool for the analysis of first-order optimization algorithms. In this paper, we use global error bound analysis to study the iteration complexity of a first-order algorithm for a linearly constrained nonconvex minimization problem. we develop a global dual error bound analysis for a regularized version of this nonconvex problem by using a novel ``decomposition'' technique. Equipped with this global dual error bound, we prove that a suitably designed primal-dual first order method can generate an $ε$-stationary solution of the linearly constrained nonconvex minimization problem within $\mathcal{O}(1/ε^2)$ iterations, which is the best known iteration complexity for this class of nonconvex problems.

preprint2020arXivOpen access
Jiawei ZhangZhiquan Luo
math.OC
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Jiawei ZhangZhiquan Luo

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