The space complexity of inner product filters

Rasmus Pagh, Johan von Tangen Sivertsen

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Abstrakt

Motivated by the problem of filtering candidate pairs in inner product similarity joins we study the following inner product estimation problem: Given parameters d∈ℕ, α>β≥0 and unit vectors x,y∈ ℝ^d consider the task of distinguishing between the cases ⟨x,y⟩≤β and ⟨x,y⟩≥α where ⟨x,y⟩ = ∑_{i=1}^d x_i y_i is the inner product of vectors x and y. The goal is to distinguish these cases based on information on each vector encoded independently in a bit string of the shortest length possible. In contrast to much work on compressing vectors using randomized dimensionality reduction, we seek to solve the problem deterministically, with no probability of error. Inner product estimation can be solved in general via estimating ⟨x,y⟩ with an additive error bounded by ε = α - β. We show that d log₂ (√{1-β}/ε) ± Θ(d) bits of information about each vector is necessary and sufficient. Our upper bound is constructive and improves a known upper bound of d log₂(1/ε) + O(d) by up to a factor of 2 when β is close to 1. The lower bound holds even in a stronger model where one of the vectors is known exactly, and an arbitrary estimation function is allowed.
OriginalsprogEngelsk
Titel23rd International Conference on Database Theory (ICDT 2020)
ForlagSchloss Dagstuhl - Leibniz-Zentrum fuer Informatik GmbH
Publikationsdato2020
Sider22:1–22:14
ISBN (Elektronisk)978-3-95977-139-9
DOI
StatusUdgivet - 2020
NavnLeibniz International Proceedings in Informatics (LIPIcs)
Vol/bind155
ISSN1868-8969

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