Effective and Robust Pruning for Top-Down Join Enumeration Algorithms

Finding the optimal execution order of join operations is a crucial task of today's cost-based query optimizers. There are two approaches to identify the best plan: bottom-up and top-down join enumeration. For both optimization strategies efficient algorithms have been published. However, only...

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Hauptverfasser:	Fender, P., Moerkotte, G., Neumann, T., Leis, V.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Complexity theory Heuristic algorithms Optimization Partitioning algorithms Prediction algorithms Robustness Upper bound
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creator	Fender, P. Moerkotte, G. Neumann, T. Leis, V.
description	Finding the optimal execution order of join operations is a crucial task of today's cost-based query optimizers. There are two approaches to identify the best plan: bottom-up and top-down join enumeration. For both optimization strategies efficient algorithms have been published. However, only the top-down approach allows for branch-and-bound pruning. Two pruning techniques can be found in the literature. We add six new ones. Combined, they improve performance roughly by an average factor of 2 - 5. Even more important, our techniques improve the worst case by two orders of magnitude. Additionally, we introduce a new, very efficient, and easy to implement top-down join enumeration algorithm. This algorithm, together with our improved pruning techniques, yields a performance which is by an average factor of 6 - 9 higher than the performance of the original top-down enumeration algorithm with the original pruning methods.
doi_str_mv	10.1109/ICDE.2012.27
format	Conference Proceeding
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subjects	Complexity theory Heuristic algorithms Optimization Partitioning algorithms Prediction algorithms Robustness Upper bound
title	Effective and Robust Pruning for Top-Down Join Enumeration Algorithms
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