JMLR
Gradient Span Algorithms Make Predictable Progress in High Dimension
Authors
Felix Benning
Leif D{\"{o}}ring
Research Topics
Computational Statistics
Paper Information
-
Journal:
Journal of Machine Learning Research -
Added to Tracker:
Jul 06, 2026
Abstract
We prove that all 'gradient span algorithms' have asymptotically deterministic behavior on scaled Gaussian random functions as the dimension tends to infinity. This is a functional generalization of similar results for random quadratic functions and spin glasses. They explain the counterintuitive phenomenon that different training runs of many large machine learning models result in approximately equal cost curves despite random initialization on a complicated non-convex landscape. This 'predictable progress' phenomenon is exploited by the AutoML community: Since the optimization progress of a single run is already representative, multiple retries with the same hyperparameters are not necessary.
Author Details
Felix Benning
AuthorLeif D{\"{o}}ring
AuthorResearch Topics & Keywords
Computational Statistics
Research AreaCitation Information
APA Format
Felix Benning
&
Leif D{\"{o}}ring
.
Gradient Span Algorithms Make Predictable Progress in High Dimension.
Journal of Machine Learning Research
.
BibTeX Format
@article{paper1376,
title = { Gradient Span Algorithms Make Predictable Progress in High Dimension },
author = {
Felix Benning
and Leif D{\"{o}}ring
},
journal = { Journal of Machine Learning Research },
url = { https://www.jmlr.org/papers/v27/25-1651.html }
}