Extended mapping algorithm based on modularity from synchronous block diagrams to AUTOSAR runnables

Shun Hori, Takuya Azumi
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Abstract

Model-based development (MBD) has become important in the automobile domain. Automobile control systems consist of various software applications, and with MATLAB/Simulink, developers can design such applications using synchronous reactive models represented by synchronous block diagrams (SBD). The automotive open system architecture (AUTOSAR), a global development partnership formed to create open and standardized software architecture for automotive electronic control units (ECU), can provide highly reusable middleware. In this case, developers must map blocks of the SBD to AUTOSAR runnables, i.e., ECU processing units, and then assign the runnables to the ECUs. Most sample models are single-rate models. However, multi-rate control models will become essential due to the increasing complexity and scale of such automotive systems. This paper proposes top-down mapping algorithms from multi-rate control SBDs to runnables in consideration of schedulability, modularity, and code size. Note that proposed algorithms do not consider reusability. Evaluation results demonstrate that algorithms provide runnable sets with superior modularity than an existing algorithm.
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基于模块化的从同步方框图到AUTOSAR可运行程序的扩展映射算法
基于模型的开发(MBD)在汽车领域已经变得非常重要。汽车控制系统由各种软件应用程序组成,通过MATLAB/Simulink,开发人员可以使用由同步方框图(SBD)表示的同步反应模型来设计这些应用程序。汽车开放系统架构(AUTOSAR)是一个全球开发伙伴关系,旨在为汽车电子控制单元(ECU)创建开放和标准化的软件架构,可以提供高度可重用的中间件。在这种情况下,开发人员必须将SBD的块映射到AUTOSAR可运行程序,即ECU处理单元,然后将可运行程序分配给ECU。大多数样本模型是单速率模型。然而,由于这种汽车系统的复杂性和规模的增加,多速率控制模型将变得必不可少。本文在考虑可调度性、模块化和代码大小的情况下,提出了从多速率控制sdd到可运行文件的自顶向下映射算法。注意,建议的算法不考虑可重用性。评估结果表明,该算法提供的可运行集具有比现有算法更好的模块化。
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