Related papers: Less is More: Convergence Benefits of Fewer Data Weight Updates over Longer Horizon

Less is More: Convergence Benefits of Fewer Data Weight Updates over Longer Horizon

URL: http://arxiv.org/abs/2602.19510v1
Date: Mon, 23 Feb 2026 04:50:13 GMT
Title: Less is More: Convergence Benefits of Fewer Data Weight Updates over Longer Horizon
Authors: Rudrajit Das, Neel Patel, Meisam Razaviyayn, Vahab Mirrokni,
Abstract summary: We analyze the convergence behavior of data mixing with a finite number of inner steps $T$.<n>We show that the optimal $T$ scales as $(log N)$ (resp., $((N log N)1/2)$) for the data mixing problem with access to full.
Score: 42.1998022417145
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Data mixing--the strategic reweighting of training domains--is a critical component in training robust machine learning models. This problem is naturally formulated as a bilevel optimization task, where the outer loop optimizes domain weights to minimize validation loss, and the inner loop optimizes model parameters to minimize the weighted training loss. Classical bilevel optimization relies on hypergradients, which theoretically require the inner optimization to reach convergence. However, due to computational constraints, state-of-the-art methods use a finite, often small, number of inner update steps before updating the weights. The theoretical implications of this approximation are not well understood. In this work, we rigorously analyze the convergence behavior of data mixing with a finite number of inner steps $T$. We prove that the "greedy" practical approach of using $T=1$ can fail even in a simple quadratic example. Under a fixed parameter update budget $N$ and assuming the per-domain losses are strongly convex, we show that the optimal $T$ scales as $Θ(\log N)$ (resp., $Θ({(N \log N)}^{1/2})$) for the data mixing problem with access to full (resp., stochastic) gradients. We complement our theoretical results with proof-of-concept experiments.

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