从Simulink模型推导并行和弹性程序

2015 23rd Euromicro International Conference on Parallel, Distributed, and Network-Based Processing Pub Date : 2015-03-04 DOI:10.1109/PDP.2015.102

S. Ostroumov, Pontus Boström, M. Waldén

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引用次数: 0

摘要

现代嵌入式应用程序通常需要高计算能力，另一方面，还需要满足实时约束和高水平的弹性。Simulink是嵌入式软件基于模型开发的一种广泛使用的工具。在本文中，我们着重于从Simulink模型中推导并行程序，并在多核平台上实时弹性执行派生实现。其主要贡献是容错(FT)机制，该机制可以在动态重新配置平台以掩盖单个内核的故障时防止数据丢失。最后，我们使用商业上可用的基于noc的平台，在工业案例研究中评估提出的解决方案。结果表明，该机制具有边际开销。

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Derivation of Parallel and Resilient Programs from Simulink Models

Modern embedded applications often require high computational power and, on the other hand, fulfilment of real-time constraints and high level of resilience. Simulink is one widely used tool for model-based development of embedded software. In this paper, we focus on the derivation of parallel programs from Simulink models and real-time resilient execution of derived implementations on a many-core platform. The main contribution is a fault-tolerance (FT) mechanism that prevents data loss when the platform is dynamically reconfigured to mask failures of individual cores. Finally, we evaluate the proposed solutions on an industrial case study using a commercially available NoC-based platform. The evaluation shows that the proposed FT mechanism has a marginal overhead.

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2015 23rd Euromicro International Conference on Parallel, Distributed, and Network-Based Processing

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