RETCON: transactional repair without replay

Proceedings of the 37th annual international symposium on Computer architecture Pub Date : 2010-06-19 DOI:10.1145/1815961.1815995

Colin Blundell, Arun Raghavan, Milo M. K. Martin

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引用次数: 37

Abstract

Over the past decade there has been a surge of academic and industrial interest in optimistic concurrency, i.e. the speculative parallel execution of code regions that have the semantics of isolation. This work analyzes scalability bottlenecks of workloads that use optimistic concurrency. We find that one common bottleneck is updates to auxiliary program data in otherwise non-conflicting operations, e.g. reference count updates and hashtable occupancy field increments. To eliminate the performance impact of conflicts on such auxiliary data, this work proposes RETCON, a hardware mechanism that tracks the relationship between input and output values symbolically and uses this symbolic information to transparently repair the output state of a transaction at commit. RETCON is inspired by instruction replay-based mechanisms but exploits simplifying properties of the nature of computations on auxiliary data to perform repair without replay. Our experiments show that RETCON provides significant speedups for workloads that exhibit conflicts on auxiliary data, including transforming a transactionalized version of the Python interpreter from a workload that exhibits no scaling to one that exhibits near-linear scaling on 32 cores.

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RETCON:无重播的事务性修复

在过去的十年里，学术界和工业界对乐观并发的兴趣激增，即对具有隔离语义的代码区域的推测并行执行。这项工作分析了使用乐观并发的工作负载的可伸缩性瓶颈。我们发现一个常见的瓶颈是在其他不冲突的操作中更新辅助程序数据，例如引用计数更新和哈希表占用字段增量。为了消除冲突对这些辅助数据的性能影响，本工作提出了RETCON，这是一种硬件机制，它以符号方式跟踪输入和输出值之间的关系，并使用该符号信息在提交时透明地修复事务的输出状态。RETCON的灵感来自于基于指令重放的机制，但利用了简化辅助数据计算的本质属性，在没有重放的情况下执行修复。我们的实验表明，RETCON为在辅助数据上显示冲突的工作负载提供了显著的加速，包括将事务化版本的Python解释器从没有缩放的工作负载转换为在32核上显示近线性缩放的工作负载。

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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Proceedings of the 37th annual international symposium on Computer architecture

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