TreeTracker Join (TTJ) is a novel join algorithm that removes dangling tuples efficiently while maintaining data complexity optimality for acyclic conjunctive queries. TTJ operates lazily, starting join evaluation immediately and only performing additional operations on join failure events. By treating the join tree of an ACQ as a constraint network, TTJ integrates search techniques like backjumping and no-good to prevent further consideration of dangling tuples. The algorithm compares favorably with classic semijoin methods and contemporary filter methods in empirical results using standard query benchmarks.
TTJ's unique approach leverages the equivalence between constraint satisfaction problems (CSP) and query evaluation, allowing for efficient removal of dangling tuples without upfront costs associated with traditional methods. By incorporating backjumping and no-good techniques into physical operators, TTJ ensures optimal data complexity while minimizing the impact of join failures on query performance.
The paper establishes the theoretical foundation for TTJ's operation, showcasing its correctness and optimality guarantees through extensive experiments and detailed analysis. By focusing on lazy evaluation and leveraging CSP principles, TTJ offers a promising solution to improving query processing efficiency in acyclic conjunctive queries.
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by Zeyuan Hu,Da... klokken arxiv.org 03-05-2024
https://arxiv.org/pdf/2403.01631.pdfDypere Spørsmål