Trade-offs in Static and Dynamic Evaluation of Hierarchical Queries

IF 0.6 4区数学 Q4 COMPUTER SCIENCE, THEORY & METHODS Logical Methods in Computer Science Pub Date : 2023-08-09 DOI:10.46298/lmcs-19(3:11)2023

Ahmet Kara, Milos Nikolic, Dan Olteanu, Haozhe Zhang

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Abstract

We investigate trade-offs in static and dynamic evaluation of hierarchical queries with arbitrary free variables. In the static setting, the trade-off is between the time to partially compute the query result and the delay needed to enumerate its tuples. In the dynamic setting, we additionally consider the time needed to update the query result under single-tuple inserts or deletes to the database. Our approach observes the degree of values in the database and uses different computation and maintenance strategies for high-degree (heavy) and low-degree (light) values. For the latter it partially computes the result, while for the former it computes enough information to allow for on-the-fly enumeration. We define the preprocessing time, the update time, and the enumeration delay as functions of the light/heavy threshold. By appropriately choosing this threshold, our approach recovers a number of prior results when restricted to hierarchical queries. We show that for a restricted class of hierarchical queries, our approach achieves worst-case optimal update time and enumeration delay conditioned on the Online Matrix-Vector Multiplication Conjecture.

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层次查询静态和动态求值的权衡

我们研究了具有任意自由变量的分层查询的静态和动态评估中的权衡。在静态设置中，需要在部分计算查询结果的时间和枚举其元组所需的延迟之间进行权衡。在动态设置中，我们还要考虑在单元组插入或删除数据库时更新查询结果所需的时间。我们的方法观察数据库中的值的程度，并对高程度(重)和低程度(轻)的值使用不同的计算和维护策略。对于后者，它部分计算结果，而对于前者，它计算足够的信息以允许动态枚举。我们将预处理时间、更新时间和枚举延迟定义为轻/重阈值的函数。通过适当地选择这个阈值，我们的方法可以在仅限于分层查询时恢复许多先前的结果。我们表明，对于一类受限制的分层查询，我们的方法在在线矩阵向量乘法猜想的条件下实现了最坏情况下的最优更新时间和枚举延迟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Logical Methods in Computer Science 工程技术-计算机：理论方法

CiteScore

1.80

自引率

0.00%

发文量

105

审稿时长

6-12 weeks

期刊介绍： Logical Methods in Computer Science is a fully refereed, open access, free, electronic journal. It welcomes papers on theoretical and practical areas in computer science involving logical methods, taken in a broad sense; some particular areas within its scope are listed below. Papers are refereed in the traditional way, with two or more referees per paper. Copyright is retained by the author. Topics of Logical Methods in Computer Science: Algebraic methods Automata and logic Automated deduction Categorical models and logic Coalgebraic methods Computability and Logic Computer-aided verification Concurrency theory Constraint programming Cyber-physical systems Database theory Defeasible reasoning Domain theory Emerging topics: Computational systems in biology Emerging topics: Quantum computation and logic Finite model theory Formalized mathematics Functional programming and lambda calculus Inductive logic and learning Interactive proof checking Logic and algorithms Logic and complexity Logic and games Logic and probability Logic for knowledge representation Logic programming Logics of programs Modal and temporal logics Program analysis and type checking Program development and specification Proof complexity Real time and hybrid systems Reasoning about actions and planning Satisfiability Security Semantics of programming languages Term rewriting and equational logic Type theory and constructive mathematics.

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