Optimal Dynamic Parameterized Subset Sampling

September 26, 2024 Β· Declared Dead Β· πŸ› Proc. ACM Manag. Data

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Authors Junhao Gan, Seeun William Umboh, Hanzhi Wang, Anthony Wirth, Zhuo Zhang arXiv ID 2409.18036 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DB Citations 3 Venue Proc. ACM Manag. Data Last Checked 4 months ago
Abstract
In this paper, we study the Dynamic Parameterized Subset Sampling (DPSS) problem in the Word RAM model. In DPSS, the input is a set,~$S$, of~$n$ items, where each item,~$x$, has a non-negative integer weight,~$w(x)$. Given a pair of query parameters, $(Ξ±, Ξ²)$, each of which is a non-negative rational number, a parameterized subset sampling query on~$S$ seeks to return a subset $T \subseteq S$ such that each item $x \in S$ is selected in~$T$, independently, with probability $p_x(Ξ±, Ξ²) = \min \left\{\frac{w(x)}{Ξ±\sum_{x\in S} w(x)+Ξ²}, 1 \right\}$. More specifically, the DPSS problem is defined in a dynamic setting, where the item set,~$S$, can be updated with insertions of new items or deletions of existing items. Our first main result is an optimal algorithm for solving the DPSS problem, which achieves~$O(n)$ pre-processing time, $O(1+ΞΌ_S(Ξ±,Ξ²))$ expected time for each query parameterized by $(Ξ±, Ξ²)$, given on-the-fly, and $O(1)$ time for each update; here, $ΞΌ_S(Ξ±,Ξ²)$ is the expected size of the query result. At all times, the worst-case space consumption of our algorithm is linear in the current number of items in~$S$. Our second main contribution is a hardness result for the DPSS problem when the item weights are~$O(1)$-word float numbers, rather than integers. Specifically, we reduce Integer Sorting to the deletion-only DPSS problem with float item weights. Our reduction implies that an optimal algorithm for deletion-only DPSS with float item weights (achieving all the same bounds as aforementioned) implies an optimal algorithm for Integer Sorting. The latter remains an important open problem. Last but not least, a key technical ingredient for our first main result is an efficient algorithm for generating Truncated Geometric random variates in $O(1)$ expected time in the Word RAM model.
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