Probabilistic timing analysis on conventional cache designs

Leonidas Kosmidis, Charlie Curtsinger, E. Quiñones, J. Abella, E. Berger, F. Cazorla
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引用次数: 50

Abstract

Probabilistic timing analysis (PTA), a promising alternative to traditional worst-case execution time (WCET) analyses, enables pairing time bounds (named probabilistic WCET or pWCET) with an exceedance probability (e.g., 10−16), resulting in far tighter bounds than conventional analyses. However, the applicability of PTA has been limited because of its dependence on relatively exotic hardware: fully-associative caches using random replacement. This paper extends the applicability of PTA to conventional cache designs via a software-only approach. We show that, by using a combination of compiler techniques and runtime system support to randomise the memory layout of both code and data, conventional caches behave as fully-associative ones with random replacement.
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传统高速缓存设计的概率时序分析
概率计时分析(PTA)是传统最坏情况执行时间(WCET)分析的一种很有前途的替代方案,它可以将时间界限(称为概率WCET或pWCET)与超越概率(例如,10 - 16)配对,从而产生比传统分析更严格的界限。然而,PTA的适用性受到限制,因为它依赖于相对特殊的硬件:使用随机替换的全关联缓存。本文通过一种纯软件的方法将PTA的适用性扩展到传统的缓存设计中。我们表明,通过结合使用编译器技术和运行时系统支持来随机化代码和数据的内存布局,传统的缓存表现为具有随机替换的完全关联的缓存。
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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