LogTM-SE: Decoupling Hardware Transactional Memory from Caches

2007 IEEE 13th International Symposium on High Performance Computer Architecture Pub Date : 2007-02-10 DOI:10.1109/HPCA.2007.346204

Luke Yen, J. Bobba, Michael R. Marty, Kevin E. Moore, Haris Volos, M. Hill, M. Swift, D. Wood

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引用次数: 365

Abstract

This paper proposes a hardware transactional memory (HTM) system called LogTM Signature Edition (LogTM-SE). LogTM-SE uses signatures to summarize a transactions read-and write-sets and detects conflicts on coherence requests (eager conflict detection). Transactions update memory "in place" after saving the old value in a per-thread memory log (eager version management). Finally, a transaction commits locally by clearing its signature, resetting the log pointer, etc., while aborts must undo the log. LogTM-SE achieves two key benefits. First, signatures and logs can be implemented without changes to highly-optimized cache arrays because LogTM-SE never moves cached data, changes a blocks cache state, or flash clears bits in the cache. Second, transactions are more easily virtualized because signatures and logs are software accessible, allowing the operating system and runtime to save and restore this state. In particular, LogTM-SE allows cache victimization, unbounded nesting (both open and closed), thread context switching and migration, and paging

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LogTM-SE:将硬件事务性内存与缓存解耦

本文提出了一种名为LogTM签名版(LogTM- se)的硬件事务性内存(HTM)系统。LogTM-SE使用签名来总结事务读写集，并检测一致性请求上的冲突(渴望冲突检测)。事务在将旧值保存在每个线程的内存日志中(即时版本管理)后“就地”更新内存。最后，事务通过清除其签名、重置日志指针等方式在本地提交，而中止必须撤销日志。LogTM-SE实现了两个关键优势。首先，签名和日志可以在不更改高度优化的缓存数组的情况下实现，因为LogTM-SE从不移动缓存数据、更改块缓存状态或flash清除缓存中的位。其次，事务更容易虚拟化，因为签名和日志是软件可访问的，允许操作系统和运行时保存和恢复此状态。特别是，LogTM-SE允许缓存受害、无界嵌套(开放和关闭)、线程上下文切换和迁移以及分页

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2007 IEEE 13th International Symposium on High Performance Computer Architecture

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