具有硬件事务性内存的大规模并发红黑树

2016 24th Euromicro International Conference on Parallel, Distributed, and Network-Based Processing (PDP) Pub Date : 2016-04-04 DOI:10.1109/PDP.2016.65

D. Siakavaras, K. Nikas, G. Goumas, N. Koziris

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引用次数: 5

摘要

硬件事务性内存(Hardware Transactional Memory, HTM)现在可以在一些商业和HPC目标处理器中使用，将来可能会在能够容纳大量线程的系统中使用。因此，为了了解HTM的优点和局限性，研究社区必须在尽可能多的核心上评估HTM。在本文中，我们利用HTM对一个经典的数据结构——红黑树——进行并行化访问。通过最少的编程工作，我们实现了一个红黑树，方法是将每个操作封装在一个HTM事务中，并在两台配备Intel Haswell-EP和IBM Power8处理器的服务器上对其进行评估，这两台服务器分别支持56个和160个硬件线程。我们的评估显示，以如此简单的方式应用HTM可以为有限数量的硬件线程提供可伸缩性。为了充分利用底层硬件，我们在每个平台上应用不同的优化。

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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Massively Concurrent Red-Black Trees with Hardware Transactional Memory

Hardware Transactional Memory (HTM) is nowadays available in several commercial and HPC targeted processors and in the future it will likely be available on systems that can accommodate a very large number of threads. Thus, it is essential for the research community to target on evaluating HTM on as many cores as possible in order to understand the virtues and limitations that come with it. In this paper we utilize HTM to parallelize accesses on a classic data structure, a red-black tree. With minimal programming effort, we implement a red-black tree by enclosing each operation in a single HTM transaction and evaluate it on two servers equipped with Intel Haswell-EP and IBM Power8 processors, supporting a large number of hardware threads, namely 56 and 160 respectively. Our evaluation reveals that applying HTM in such a simplistic manner allows scalability for up to a limited number of hardware threads. To fully utilize the underlying hardware we apply different optimizations on each platform.

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2016 24th Euromicro International Conference on Parallel, Distributed, and Network-Based Processing (PDP)

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