IRQ Coloring: Mitigating Interrupt-Generated Interference on ARM Multicore Platforms

NG-RES@HiPEAC Pub Date : 1900-01-01 DOI:10.4230/OASIcs.NG-RES.2023.2

Diogo Costa, L. Cuomo, Daniel de Oliveira, I. M. Savino, Bruno Morelli, José Martins, Fabrizio Tronci, A. Biasci, S. Pinto

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引用次数: 2

Abstract

Mixed-criticality systems, which consolidate workloads with different criticalities, must comply with stringent spatial and temporal isolation requirements imposed by safety-critical standards (e.g., ISO26262). This, per se, has proven to be a challenge with the advent of multicore platforms due to the inner interference created by multiple subsystems while disputing access to shared resources. With this work, we pioneer the concept of Interrupt (IRQ) coloring as a novel mechanism to minimize the interference created by co-existing interrupt-driven workloads. The main idea consists of selectively deactivating specific (“colored”) interrupts if the Quality of Service (QoS) of critical workloads (e.g., Virtual Machines) drops below a well-defined threshold. The IRQ Coloring approach encompasses two artifacts, i.e., the IRQ Coloring Design-Time Tool (IRQ DTT) and the IRQ Coloring Run-Time Mechanism (IRQ RTM). In this paper, we focus on presenting the conceptual IRQ coloring design, describing the first prototype of the IRQ RTM on Bao hypervisor, and providing initial evidence about the effectiveness of the proposed approach on a synthetic use case.

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IRQ着色:在ARM多核平台上减轻中断产生的干扰

混合临界系统整合了具有不同临界的工作负载，必须符合安全关键标准(例如ISO26262)规定的严格的空间和时间隔离要求。随着多核平台的出现，由于多个子系统在争夺共享资源的访问权限时产生的内部干扰，这本身已被证明是一个挑战。通过这项工作，我们率先提出了中断(IRQ)着色的概念，作为一种新的机制，以最大限度地减少共存的中断驱动工作负载所产生的干扰。其主要思想是，如果关键工作负载(例如，虚拟机)的服务质量(QoS)下降到定义良好的阈值以下，则选择性地停用特定(“有色”)中断。IRQ着色方法包括两个构件，即IRQ着色设计时工具(IRQ DTT)和IRQ着色运行时机制(IRQ RTM)。在本文中，我们重点介绍了概念上的IRQ着色设计，描述了基于Bao管理程序的IRQ RTM的第一个原型，并提供了关于所提出方法在综合用例上的有效性的初步证据。

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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