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DUAL DESCENT AUGMENTED LAGRANGIAN METHOD AND ALTERNATING DIRECTION METHOD OF MULTIPLIERS.

Authors :
KAIZHAO SUN
XU ANDY SUN
Source :
SIAM Journal on Optimization. 2024, Vol. 34 Issue 2, p1679-1707. 29p.
Publication Year :
2024

Abstract

Classical primal-dual algorithms attempt to solve max∣1 miι⅛ £(æ, μ) by alternately minimizing over the primal variable x through primal descent and maximizing the dual variable μ through dual ascent. However, when Z2(x, μ) is highly nonconvex with complex constraints in x, the minimization over x may not achieve global optimality and, hence, the dual ascent step loses its valid intuition. This observation motivates us to propose a new class of primal-dual algorithms for nonconvex constrained optimization with the key feature to reverse dual ascent to a conceptually new dual descent, in a sense, elevating the dual variable to the same status as the primal variable. Surprisingly, this new dual scheme achieves some best iteration complexities for solving nonconvex optimization problems. In particular, when the dual descent step is scaled by a fractional constant, we name it scaled dual descent (SDD), otherwise, unsealed dual descent (UDD). For nonconvex multiblock optimization with nonlinear equality constraints, we propose SDD-alternating direction method of multipliers (SDD-ADMM) and show that it finds an e-stationary solution in O{e~4) iterations. The complexity is further improved to O{e~3) and O{e~2) under proper conditions. We also propose UDD-augmented Lagrangian method (UDD-ALM), combining UDD with ALM, for weakly convex minimization over affine constraints. We show that UDD-ALM finds an e-stationary solution in O{e~2) iterations. These complexity bounds for both algorithms either achieve or improve the best-known results in the ADMM and ALM literature. Moreover, SDD-ADMM addresses a longstanding limitation of existing ADMM frameworks. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10526234
Volume :
34
Issue :
2
Database :
Academic Search Index
Journal :
SIAM Journal on Optimization
Publication Type :
Academic Journal
Accession number :
178370483
Full Text :
https://doi.org/10.1137/21M1449099