Lower Bounds for Linear Minimization Oracle Methods Optimizing over Strongly Convex Sets
Abstract
We consider the oracle complexity of constrained convex optimization given access to a Linear Minimization Oracle (LMO) for the constraint set and a gradient oracle for the -smooth, strongly convex objective. This model includes Frank-Wolfe methods and their many variants. Over the problem class of strongly convex constraint sets , our main result proves that no such deterministic method can guarantee a final objective gap less than in fewer than iterations. Our lower bound matches, up to constants, the accelerated Frank-Wolfe theory of Garber and Hazan (2015). Together, these establish this as the optimal complexity for deterministic LMO methods over strongly convex constraint sets. Second, we consider optimization over -smooth sets, finding that in the modestly smooth regime of , no complexity improvement for span-based LMO methods is possible against either compact convex sets or strongly convex sets.
Cite
@article{arxiv.2602.22608,
title = {Lower Bounds for Linear Minimization Oracle Methods Optimizing over Strongly Convex Sets},
author = {Benjamin Grimmer and Ning Liu},
journal= {arXiv preprint arXiv:2602.22608},
year = {2026}
}
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17 pages