使用显式位屏障增强垃圾收集同步

2015 44th International Conference on Parallel Processing Pub Date : 2015-09-01 DOI:10.1109/ICPP.2015.86

J. Hollmann, J. Gil, P. Stenström

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引用次数: 0

摘要

多核体系结构提供了一种方便的方法来解锁应用程序(称为mutator)和垃圾收集器之间的并发性，但是通过屏障在两者之间进行有效同步对于解锁这种并发性至关重要。硬件事务性内存(Hardware Transactional Memory, HTM)现已商业化，它为同步开辟了新的途径，同时显著降低了mutator的开销。不幸的是，迄今为止提出的基于html的方案要么需要专门的硬件支持，要么通过调用操作系统级别的陷阱处理程序带来严重的开销。本文提出了显式位屏障(Explicit Bit Barriers, EBB)，这是一种实现mutator和html封装重定位任务之间快速同步的新方法。我们比较了EBBs和基于依赖于操作系统级陷阱处理程序的虚拟内存的读屏障的效率。我们展示了ebb几乎与那些需要专用硬件的ebb一样高效，但运行在带有TSX扩展的商用英特尔处理器上。

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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Enhancing Garbage Collection Synchronization Using Explicit Bit Barriers

Multicore architectures offer a convenient way to unlock concurrency between application (called mutator) and garbage collector, yet efficient synchronization between the two by means of barriers is critical to unlock this concurrency. Hardware Transactional Memory (HTM), now commercially available, opens up new ways for synchronization with dramatically lower overhead for the mutator. Unfortunately, HTM-based schemes proposed to date either require specialized hardware support or impose severe overhead through invocation of OS-level trap handlers. This paper proposes Explicit Bit Barriers (EBB), a novel approach for fast synchronization between the mutator and HTM-encapsulated relocation tasks. We compare the efficiency of EBBs with read barriers based on virtual memory that rely on OS-level trap handlers. We show that EBBs are nearly as efficient as those needing specialized hardware, but run on commodity Intel processors with TSX extensions.

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2015 44th International Conference on Parallel Processing

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