Quantitative comparison of Hardware Transactional Memory for Blue Gene/Q, zEnterprise EC12, Intel Core, and POWER8

T. Nakaike, Rei Odaira, Matthew Gaudet, Maged M. Michael, Hisanobu Tomari
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引用次数: 100

Abstract

Transactional Memory (TM) is a new programming paradigm for both simple concurrent programming and high concurrent performance. Hardware Transactional Memory (HTM) is hardware support for TM-based programming. It has lower overhead than software transactional memory (STM), which is a software-based implementation of TM. There are now four commercial systems, IBM Blue Gene/Q, IBM zEnterprise EC12, Intel Core, and IBM POWER8, offering HTM. Our work is the first to compare the performance of these four HTM systems. We measured the STAMP benchmarks, the most widely used TM benchmarks. We also evaluated the specific features of each HTM system. Our experimental results show that: (1) there is no single HTM system that is more scalable than the others in all of the benchmarks, (2) there are measurable performance differences among the HTM systems in some benchmarks, and (3) each HTM system has its own implementation characteristics that limit its scalability.
Blue Gene/Q、zEnterprise EC12、Intel Core和POWER8硬件事务性内存的定量比较
事务性内存(Transactional Memory, TM)是一种用于简单并发编程和高并发性能的新编程范式。硬件事务性内存(Hardware Transactional Memory, HTM)是对基于tm编程的硬件支持。它的开销低于软件事务性内存(STM),后者是一种基于软件的TM实现。现在有四个商业系统提供HTM,分别是IBM Blue Gene/Q、IBM zEnterprise EC12、Intel Core和IBM POWER8。我们的工作首次比较了这四种HTM系统的性能。我们测量了STAMP基准,这是使用最广泛的TM基准。我们还评估了每个HTM系统的具体特性。我们的实验结果表明:(1)在所有的基准测试中,没有一个HTM系统比其他系统更具可扩展性;(2)在一些基准测试中,HTM系统之间存在可测量的性能差异;(3)每个HTM系统都有自己的实现特征,限制了其可扩展性。
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