Crossing the logarithmic barrier for dynamic boolean data structure lower bounds

Kasper Green Larsen; Omri Weinstein; Huacheng Yu

doi:10.1145/3188745.3188790

Crossing the logarithmic barrier for dynamic boolean data structure lower bounds

Kasper Green Larsen, Omri Weinstein, Huacheng Yu

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper proves the first super-logarithmic lower bounds on the cell probe complexity of dynamic boolean (a.k.a. decision) data structure problems, a long-standing milestone in data structure lower bounds. We introduce a new approach and use it to prove a Ω (lg^1.5 n) lower bound on the operational time of a wide range of boolean data structure problems, most notably, on the query time of dynamic range counting over F₂ (Pǎtraşcu, 2007). Proving an (lg n) lower bound for this problem was explicitly posed as one of five important open problems in the late Mihai Pǎtraşcu’s obituary (Thorup, 2013). This result also implies the first (lg n) lower bound for the classical 2D range counting problem, one of the most fundamental data structure problems in computational geometry and spatial databases. We derive similar lower bounds for boolean versions of dynamic polynomial evaluation and 2D rectangle stabbing, and for the (non-boolean) problems of range selection and range median. Our technical centerpiece is a new way of “weakly" simulating dynamic data structures using efficient one-way communication protocols with small advantage over random guessing. This simulation involves a surprising excursion to low-degree (Chebyshev) polynomials which May be of independent interest, and offers an entirely new algorithmic angle on the “cell sampling" method of Panigrahy et al. (2010).

Original language	English
Title of host publication	STOC 2018 - Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing
Editors	Monika Henzinger, David Kempe, Ilias Diakonikolas
Pages	485-492
Number of pages	8
ISBN (Electronic)	9781450355599
DOIs	https://doi.org/10.1145/3188745.3188790
State	Published - 20 Jun 2018
Externally published	Yes
Event	50th Annual ACM Symposium on Theory of Computing, STOC 2018 - Los Angeles, United States Duration: 25 Jun 2018 → 29 Jun 2018

Publication series

Name	Proceedings of the Annual ACM Symposium on Theory of Computing

Conference

Conference	50th Annual ACM Symposium on Theory of Computing, STOC 2018
Country/Territory	United States
City	Los Angeles
Period	25/06/18 → 29/06/18

Keywords

Cell probe complexity
Data structures
Dynamic problems
Lower bounds
Range searching

All Science Journal Classification (ASJC) codes

Software

Access to Document

10.1145/3188745.3188790

Cite this

Larsen, K. G., Weinstein, O., & Yu, H. (2018). Crossing the logarithmic barrier for dynamic boolean data structure lower bounds. In M. Henzinger, D. Kempe, & I. Diakonikolas (Eds.), STOC 2018 - Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing (pp. 485-492). (Proceedings of the Annual ACM Symposium on Theory of Computing). https://doi.org/10.1145/3188745.3188790

Larsen, Kasper Green ; Weinstein, Omri ; Yu, Huacheng. / Crossing the logarithmic barrier for dynamic boolean data structure lower bounds. STOC 2018 - Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing. editor / Monika Henzinger ; David Kempe ; Ilias Diakonikolas. 2018. pp. 485-492 (Proceedings of the Annual ACM Symposium on Theory of Computing).

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title = "Crossing the logarithmic barrier for dynamic boolean data structure lower bounds",

abstract = "This paper proves the first super-logarithmic lower bounds on the cell probe complexity of dynamic boolean (a.k.a. decision) data structure problems, a long-standing milestone in data structure lower bounds. We introduce a new approach and use it to prove a Ω (lg1.5 n) lower bound on the operational time of a wide range of boolean data structure problems, most notably, on the query time of dynamic range counting over F2 (Pǎtra{\c s}cu, 2007). Proving an (lg n) lower bound for this problem was explicitly posed as one of five important open problems in the late Mihai Pǎtra{\c s}cu{\textquoteright}s obituary (Thorup, 2013). This result also implies the first (lg n) lower bound for the classical 2D range counting problem, one of the most fundamental data structure problems in computational geometry and spatial databases. We derive similar lower bounds for boolean versions of dynamic polynomial evaluation and 2D rectangle stabbing, and for the (non-boolean) problems of range selection and range median. Our technical centerpiece is a new way of “weakly{"} simulating dynamic data structures using efficient one-way communication protocols with small advantage over random guessing. This simulation involves a surprising excursion to low-degree (Chebyshev) polynomials which May be of independent interest, and offers an entirely new algorithmic angle on the “cell sampling{"} method of Panigrahy et al. (2010).",

keywords = "Cell probe complexity, Data structures, Dynamic problems, Lower bounds, Range searching",

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Larsen, KG, Weinstein, O & Yu, H 2018, Crossing the logarithmic barrier for dynamic boolean data structure lower bounds. in M Henzinger, D Kempe & I Diakonikolas (eds), STOC 2018 - Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing. Proceedings of the Annual ACM Symposium on Theory of Computing, pp. 485-492, 50th Annual ACM Symposium on Theory of Computing, STOC 2018, Los Angeles, United States, 25/06/18. https://doi.org/10.1145/3188745.3188790

Crossing the logarithmic barrier for dynamic boolean data structure lower bounds. / Larsen, Kasper Green; Weinstein, Omri; Yu, Huacheng.
STOC 2018 - Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing. ed. / Monika Henzinger; David Kempe; Ilias Diakonikolas. 2018. p. 485-492 (Proceedings of the Annual ACM Symposium on Theory of Computing).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - This paper proves the first super-logarithmic lower bounds on the cell probe complexity of dynamic boolean (a.k.a. decision) data structure problems, a long-standing milestone in data structure lower bounds. We introduce a new approach and use it to prove a Ω (lg1.5 n) lower bound on the operational time of a wide range of boolean data structure problems, most notably, on the query time of dynamic range counting over F2 (Pǎtraşcu, 2007). Proving an (lg n) lower bound for this problem was explicitly posed as one of five important open problems in the late Mihai Pǎtraşcu’s obituary (Thorup, 2013). This result also implies the first (lg n) lower bound for the classical 2D range counting problem, one of the most fundamental data structure problems in computational geometry and spatial databases. We derive similar lower bounds for boolean versions of dynamic polynomial evaluation and 2D rectangle stabbing, and for the (non-boolean) problems of range selection and range median. Our technical centerpiece is a new way of “weakly" simulating dynamic data structures using efficient one-way communication protocols with small advantage over random guessing. This simulation involves a surprising excursion to low-degree (Chebyshev) polynomials which May be of independent interest, and offers an entirely new algorithmic angle on the “cell sampling" method of Panigrahy et al. (2010).

AB - This paper proves the first super-logarithmic lower bounds on the cell probe complexity of dynamic boolean (a.k.a. decision) data structure problems, a long-standing milestone in data structure lower bounds. We introduce a new approach and use it to prove a Ω (lg1.5 n) lower bound on the operational time of a wide range of boolean data structure problems, most notably, on the query time of dynamic range counting over F2 (Pǎtraşcu, 2007). Proving an (lg n) lower bound for this problem was explicitly posed as one of five important open problems in the late Mihai Pǎtraşcu’s obituary (Thorup, 2013). This result also implies the first (lg n) lower bound for the classical 2D range counting problem, one of the most fundamental data structure problems in computational geometry and spatial databases. We derive similar lower bounds for boolean versions of dynamic polynomial evaluation and 2D rectangle stabbing, and for the (non-boolean) problems of range selection and range median. Our technical centerpiece is a new way of “weakly" simulating dynamic data structures using efficient one-way communication protocols with small advantage over random guessing. This simulation involves a surprising excursion to low-degree (Chebyshev) polynomials which May be of independent interest, and offers an entirely new algorithmic angle on the “cell sampling" method of Panigrahy et al. (2010).

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KW - Dynamic problems

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KW - Range searching

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DO - 10.1145/3188745.3188790

M3 - منشور من مؤتمر

T3 - Proceedings of the Annual ACM Symposium on Theory of Computing

SP - 485

EP - 492

BT - STOC 2018 - Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing

A2 - Henzinger, Monika

A2 - Kempe, David

A2 - Diakonikolas, Ilias

T2 - 50th Annual ACM Symposium on Theory of Computing, STOC 2018

Y2 - 25 June 2018 through 29 June 2018

ER -

Crossing the logarithmic barrier for dynamic boolean data structure lower bounds

Abstract

Publication series

Conference

Keywords

All Science Journal Classification (ASJC) codes

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