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arxiv: 2112.10987 · v1 · pith:DCEKWKGJ · submitted 2021-12-21 · cs.DS · cs.CG· cs.DM

Lower Bounds for Sparse Oblivious Subspace Embeddings

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classification cs.DS cs.CGcs.DM
keywords epsilondeltaomegasubspacecolumnlowermathbbmatrix
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An oblivious subspace embedding (OSE), characterized by parameters $m,n,d,\epsilon,\delta$, is a random matrix $\Pi\in \mathbb{R}^{m\times n}$ such that for any $d$-dimensional subspace $T\subseteq \mathbb{R}^n$, $\Pr_\Pi[\forall x\in T, (1-\epsilon)\|x\|_2 \leq \|\Pi x\|_2\leq (1+\epsilon)\|x\|_2] \geq 1-\delta$. For $\epsilon$ and $\delta$ at most a small constant, we show that any OSE with one nonzero entry in each column must satisfy that $m = \Omega(d^2/(\epsilon^2\delta))$, establishing the optimality of the classical Count-Sketch matrix. When an OSE has $1/(9\epsilon)$ nonzero entries in each column, we show it must hold that $m = \Omega(\epsilon^{O(\delta)} d^2)$, improving on the previous $\Omega(\epsilon^2 d^2)$ lower bound due to Nelson and Nguyen (ICALP 2014).

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