利用量子退火调度事务，避免阻塞

Proceedings of the 24th Symposium on International Database Engineering & Applications Pub Date : 2020-08-12 DOI:10.1145/3410566.3410593

Tim Bittner, Sven Groppe

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引用次数: 13

摘要

量子退火器是一种特殊的用于求解最优化问题的量子计算机。在本文中，我们研究了量子退火在事务同步领域的好处。特别是，我们将展示如何将使用两阶段锁定协议的事务最佳地分发到任意数量的可用机器上，以减少事务等待时间。因此，问题的一个实例将被转化为量子退火炉所接受的公式。在实验评估中，量子退火算法的运行时间优于传统算法的运行时间，以解决小问题规模的模拟退火等组合问题。

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Avoiding blocking by scheduling transactions using quantum annealing

Quantum annealers are a special kind of quantum computers for solving optimization problems. In this paper, we investigate the benefits of quantum annealers in the field of transaction synchronization. In particular, we show how transactions using the 2-phase-locking protocol can be optimally distributed to any number of available machines to reduce transaction waiting times. Therefore an instance of the problem will be transformed into a formula that is accepted by quantum annealers. In an experimental evaluation, the runtime on a quantum annealer outperforms the runtime of traditional algorithms to solve combinatorial problems like simulated annealing already for small problem sizes.

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Proceedings of the 24th Symposium on International Database Engineering & Applications

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