改进硬件持久性模型:针对Intel-x86和Armv8的基于视图和公理的持久性模型

K. Cho, Sung-Hwan Lee, Azalea Raad, Jeehoon Kang
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引用次数: 17

摘要

非易失性内存(Non-volatile memory, NVM)是一种尖端存储技术,它既具有DRAM的性能,又具有SSD的耐用性。最近的工作为主流架构(如Intel-x86和Armv8)提出了几个持久性模型,描述了写操作传播到NVM的顺序。然而,这些模型有一些局限性;最值得注意的是,它们要么缺乏操作模型,要么不支持持久同步模式。我们通过改进现有的持久性模型来缩小这一差距。首先,受到最近关于有前途的语义工作的启发,我们提出了一种统一的操作风格来使用视图描述持久性,并为Intel-x86和Armv8开发了基于视图的操作持久性模型,从而提出了Armv8持久性的第一个操作模型。接下来,我们提出了一个统一的公理风格来描述硬件持久性,允许我们重塑和修复现有的Intel-x86和Armv8持久性的公理模型。我们证明了我们的公理模型与Intel和Arm工程师审查的权威语义是等价的。我们进一步证明了每个公理硬件持久性模型都等价于它的操作性对应模型。最后,我们开发了一个持久模型检验算法和工具,并用它对几个代表性的例子进行了验证。
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Revamping hardware persistency models: view-based and axiomatic persistency models for Intel-x86 and Armv8
Non-volatile memory (NVM) is a cutting-edge storage technology that promises the performance of DRAM with the durability of SSD. Recent work has proposed several persistency models for mainstream architectures such as Intel-x86 and Armv8, describing the order in which writes are propagated to NVM. However, these models have several limitations; most notably, they either lack operational models or do not support persistent synchronization patterns. We close this gap by revamping the existing persistency models. First, inspired by the recent work on promising semantics, we propose a unified operational style for describing persistency using views, and develop view-based operational persistency models for Intel-x86 and Armv8, thus presenting the first operational model for Armv8 persistency. Next, we propose a unified axiomatic style for describing hardware persistency, allowing us to recast and repair the existing axiomatic models of Intel-x86 and Armv8 persistency. We prove that our axiomatic models are equivalent to the authoritative semantics reviewed by Intel and Arm engineers. We further prove that each axiomatic hardware persistency model is equivalent to its operational counterpart. Finally, we develop a persistent model checking algorithm and tool, and use it to verify several representative examples.
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