WCET(m) Estimation in Multi-core Systems Using Single Core Equivalence

2015 27th Euromicro Conference on Real-Time Systems Pub Date : 2015-07-08 DOI:10.1109/ECRTS.2015.23

R. Mancuso, R. Pellizzoni, M. Caccamo, L. Sha, H. Yun

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引用次数: 72

Abstract

Multi-core platforms represent the answer of the industry to the increasing demand for computational capabilities. From a real-time perspective, however, the inherent sharing of resources, such as memory subsystem and I/O channels, creates inter-core timing interference among critical tasks and applications deployed on different cores. As a result, modular per-core certification cannot be performed, meaning that: (1) current industrial engineering processes cannot be reused, (2) software developed and certified for single-core chips cannot be deployed on multi-core platforms as is. In this work, we propose the Single Core Equivalence (SCE) technology: a framework of OS-level techniques designed for commercial (COTS) architectures that exports a set of equivalent single-core virtual machines from a multi-core platform. This allows per-core schedulability results to be calculated in isolation and to hold when multiple cores of the system run in parallel. Thus, SCE allows each core of a multi-core chip to be considered as a conventional single-core chip, ultimately enabling industry to reuse existing software, schedulability analysis methodologies and engineering processes.

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基于单核等效的多核系统WCET(m)估计

多核平台代表了行业对计算能力日益增长的需求的答案。然而，从实时的角度来看，固有的资源共享(如内存子系统和I/O通道)会在部署在不同核心上的关键任务和应用程序之间产生核间时间干扰。因此，模块化的每核认证无法执行，这意味着:(1)当前的工业工程流程无法重复使用;(2)为单核芯片开发和认证的软件无法按原来的方式部署在多核平台上。在这项工作中，我们提出了单核等效(SCE)技术:一个为商业(COTS)架构设计的操作系统级技术框架，从多核平台导出一组等效的单核虚拟机。这允许单独计算每核可调度性结果，并在系统的多个核心并行运行时保持不变。因此，SCE允许将多核芯片的每个核心视为传统的单核芯片，最终使行业能够重用现有的软件、可调度分析方法和工程流程。

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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2015 27th Euromicro Conference on Real-Time Systems

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