New amortized cell-probe lower bounds for dynamic problems
Bhattacharya S, Henzinger M, Neumann S. 2019. New amortized cell-probe lower bounds for dynamic problems. Theoretical Computer Science. 779, 72–87.
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https://arxiv.org/abs/1902.02304
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Author
Bhattacharya, Sayan;
Henzinger, MonikaISTA ;
Neumann, Stefan
Abstract
We build upon the recent papers by Weinstein and Yu (FOCS'16), Larsen (FOCS'12), and Clifford et al. (FOCS'15) to present a general framework that gives amortized lower bounds on the update and query times of dynamic data structures. Using our framework, we present two concrete results.
(1) For the dynamic polynomial evaluation problem, where the polynomial is defined over a finite field of size n1+Ω(1) and has degree n, any dynamic data structure must either have an amortized update time of Ω((lgn/lglgn)2) or an amortized query time of Ω((lgn/lglgn)2).
(2) For the dynamic online matrix vector multiplication problem, where we get an n×n matrix whose entires are drawn from a finite field of size nΘ(1), any dynamic data structure must either have an amortized update time of Ω((lgn/lglgn)2) or an amortized query time of Ω(n⋅(lgn/lglgn)2).
For these two problems, the previous works by Larsen (FOCS'12) and Clifford et al. (FOCS'15) gave the same lower bounds, but only for worst case update and query times. Our bounds match the highest unconditional lower bounds known till date for any dynamic problem in the cell-probe model.
Publishing Year
Date Published
2019-08-02
Journal Title
Theoretical Computer Science
Publisher
Elsevier
Volume
779
Page
72-87
ISSN
IST-REx-ID
Cite this
Bhattacharya S, Henzinger M, Neumann S. New amortized cell-probe lower bounds for dynamic problems. Theoretical Computer Science. 2019;779:72-87. doi:10.1016/j.tcs.2019.01.043
Bhattacharya, S., Henzinger, M., & Neumann, S. (2019). New amortized cell-probe lower bounds for dynamic problems. Theoretical Computer Science. Elsevier. https://doi.org/10.1016/j.tcs.2019.01.043
Bhattacharya, Sayan, Monika Henzinger, and Stefan Neumann. “New Amortized Cell-Probe Lower Bounds for Dynamic Problems.” Theoretical Computer Science. Elsevier, 2019. https://doi.org/10.1016/j.tcs.2019.01.043.
S. Bhattacharya, M. Henzinger, and S. Neumann, “New amortized cell-probe lower bounds for dynamic problems,” Theoretical Computer Science, vol. 779. Elsevier, pp. 72–87, 2019.
Bhattacharya S, Henzinger M, Neumann S. 2019. New amortized cell-probe lower bounds for dynamic problems. Theoretical Computer Science. 779, 72–87.
Bhattacharya, Sayan, et al. “New Amortized Cell-Probe Lower Bounds for Dynamic Problems.” Theoretical Computer Science, vol. 779, Elsevier, 2019, pp. 72–87, doi:10.1016/j.tcs.2019.01.043.
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arXiv 1902.02304