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Paper detail

Barriers for Faster Dimensionality Reduction

The Johnson-Lindenstrauss transform allows one to embed a dataset of $n$ points in $\mathbb{R}^d$ into $\mathbb{R}^m,$ while preserving the pairwise distance between any pair of points up to a factor $(1 \pm \varepsilon)$, provided that $m = Ω(\varepsilon^{-2} \lg n)$. The transform has found an overwhelming number of algorithmic applications, allowing to speed up algorithms and reducing memory consumption at the price of a small loss in accuracy. A central line of research on such transforms, focus on developing fast embedding algorithms, with the classic example being the Fast JL transform by Ailon and Chazelle. All known such algorithms have an embedding time of $Ω(d \lg d)$, but no lower bounds rule out a clean $O(d)$ embedding time. In this work, we establish the first non-trivial lower bounds (of magnitude $Ω(m \lg m)$) for a large class of embedding algorithms, including in particular most known upper bounds.

preprint2022arXivOpen access
Ora Nova FandinaMikael Møller HøgsgaardKasper Green Larsen
Data Structures and Algorithms
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Ora Nova FandinaMikael Møller HøgsgaardKasper Green Larsen

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