Approaching Optimality for Solving Dense Linear Systems with Low-Rank Structure
July 15, 2025 Β· Declared Dead Β· π arXiv.org
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Authors
MichaΕ DereziΕski, Aaron Sidford
arXiv ID
2507.11724
Category
cs.DS: Data Structures & Algorithms
Cross-listed
math.NA,
math.OC,
stat.ML
Citations
3
Venue
arXiv.org
Last Checked
4 months ago
Abstract
We provide new high-accuracy randomized algorithms for solving linear systems and regression problems that are well-conditioned except for $k$ large singular values. For solving such $d \times d$ positive definite system our algorithms succeed whp. and run in time $\tilde O(d^2 + k^Ο)$. For solving such regression problems in a matrix $\mathbf{A} \in \mathbb{R}^{n \times d}$ our methods succeed whp. and run in time $\tilde O(\mathrm{nnz}(\mathbf{A}) + d^2 + k^Ο)$ where $Ο$ is the matrix multiplication exponent and $\mathrm{nnz}(\mathbf{A})$ is the number of non-zeros in $\mathbf{A}$. Our methods nearly-match a natural complexity limit under dense inputs for these problems and improve upon a trade-off in prior approaches that obtain running times of either $\tilde O(d^{2.065}+k^Ο)$ or $\tilde O(d^2 + dk^{Ο-1})$ for $d\times d$ systems. Moreover, we show how to obtain these running times even under the weaker assumption that all but $k$ of the singular values have a suitably bounded generalized mean. Consequently, we give the first nearly-linear time algorithm for computing a multiplicative approximation to the nuclear norm of an arbitrary dense matrix. Our algorithms are built on three general recursive preconditioning frameworks, where matrix sketching and low-rank update formulas are carefully tailored to the problems' structure.
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