Ahead-Of-Real-Time (ART): A Methodology for Static Reduction of Worst-Case Execution Time

NG-RES@HiPEAC Pub Date : 1900-01-01 DOI:10.4230/OASIcs.NG-RES.2022.4

Daniele Cattaneo, Gabriele Magnani, Stefano Cherubin, G. Agosta

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Abstract

Precision tuning is an approximate computing technique for trading precision with lower execution time, and it has been increasingly important in embedded and high-performance computing applications. In particular, embedded applications benefit from lower precision in order to reduce or remove the dependency on computationally-expensive data types such as floating point. Amongst such applications, an important fraction are mission-critical tasks, such as control systems for vehicles or medical use-cases. In this context, the usefulness of precision tuning is limited by concerns about verificability of real-time and quality-of-service constraints. However, with the introduction of optimisations techniques based on integer linear programming and rigorous WCET (Worst-Case Execution Time) models, these constraints not only can be verified automatically, but it becomes possible to use precision tuning to automatically enforce these constraints even when not previously possible. In this work, we show how to combine precision tuning with WCET analysis to enforce a limit on the execution time by using a constraint-based code optimisation pass with a state-of-the-art precision tuning framework.

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超前实时(ART):静态减少最坏情况执行时间的方法

精密调优是一种以较低的执行时间换取精度的近似计算技术，在嵌入式和高性能计算应用中越来越重要。特别是，嵌入式应用程序受益于较低的精度，以减少或消除对计算开销较大的数据类型(如浮点数)的依赖。在这些应用程序中，重要的一部分是关键任务，例如车辆或医疗用例的控制系统。在这种情况下，精确调优的有用性受到对实时和服务质量约束的可验证性的关注的限制。然而，随着基于整数线性规划和严格的WCET(最坏情况执行时间)模型的优化技术的引入，这些约束不仅可以自动验证，而且可以使用精确调优来自动执行这些约束，即使以前不可能。在这项工作中，我们将展示如何将精确调优与WCET分析结合起来，通过使用基于约束的代码优化通道和最先进的精确调优框架来强制限制执行时间。

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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