多核NUMA机器的垃圾收集

Workshop on Memory System Performance and Correctness Pub Date : 2011-05-12 DOI:10.1145/1988915.1988929

Sven Auhagen, Lars Bergstrom, M. Fluet, John H. Reppy

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引用次数: 26

摘要

现代高端机器具有多个处理器包，每个处理器包都包含多个独立的内核和直接连接到专用物理RAM的集成内存控制器。这些包通过共享总线连接起来，从而创建一个具有异构内存层次结构的系统。由于此共享总线的带宽小于到内存的链接的总和，所以当并行线程都访问其处理器包的本地内存时，总内存带宽比访问附加到远程包的内存时要高。这种带宽限制传统上限制了现代函数式语言实现的可伸缩性，即使在小型基准测试中，也很少能扩展到8核以上。这项工作提出了一个与我们严格的并行函数语言实现集成的垃圾收集器，Manticore，并表明它在48核AMD Opteron机器和32核Intel Xeon机器上都有效地扩展。

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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Garbage collection for multicore NUMA machines

Modern high-end machines feature multiple processor packages, each of which contains multiple independent cores and integrated memory controllers connected directly to dedicated physical RAM. These packages are connected via a shared bus, creating a system with a heterogeneous memory hierarchy. Since this shared bus has less bandwidth than the sum of the links to memory, aggregate memory bandwidth is higher when parallel threads all access memory local to their processor package than when they access memory attached to a remote package. This bandwidth limitation has traditionally limited the scalability of modern functional language implementations, which seldom scale well past 8 cores, even on small benchmarks. This work presents a garbage collector integrated with our strict, parallel functional language implementation, Manticore, and shows that it scales effectively on both a 48-core AMD Opteron machine and a 32-core Intel Xeon machine.

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Workshop on Memory System Performance and Correctness

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