基于IF语言的混合临界NoC路由器建模与验证

Proceedings of the 10th International Workshop on Network on Chip Architectures Pub Date : 2017-10-14 DOI:10.1145/3139540.3139543

Mourad Dridi, M. Lallali, S. Rubini, Frank Singhoff, J. Diguet

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引用次数: 5

摘要

在混合临界系统(MCS)中，高临界实时和低临界实时应用共享同一个硬件平台。如今，MCS还必须能够在基于noc的体系结构上实现。这些应用程序通过同一网络交换具有不同定时需求的消息。在NoC中的流之间共享资源可能导致不可预测的延迟，并随后使MCS在多核架构中的实现复杂化。一种解决方案是，NoC路由器为高关键通信提供保证，同时对低关键通信的性能影响最小。我们提出了一种新的路由器DAS，它具有这些特性来支持MCS应用。此外，我们还首次正式验证了noc路由器的MCS特性。我们详细介绍了DAS路由器的正式规范，使用IF语言，以验证其支持MCS应用程序的能力。我们还描述了基于这些属性和使用IF工具集的该规范的验证方法。

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Modeling and Validation of a Mixed-Criticality NoC Router Using the IF Language

In Mixed-Criticality Systems (MCS), high-critical real-time and low-critical real-time applications share the same hardware platform. Today MCS must also be implementable on NoC-based architectures. Those applications exchange messages with different timing requirements through the same network. Sharing resources between flows in a NoC can lead to unpredictable latencies and subsequently complicate the implementation of MCS in many-core architectures. A solution is that NoC routers provide guarantees for high-critical communications with a minimum impact on performances for low-critical communications. We propose a new router called DAS, which exhibits such properties to support MCS applications. Moreover we introduce the first formal verification of the MCS properties of a NoC-router. We detail a formal specification of the DAS router, with the IF language, in order to verify its ability to support MCS applications. We also describe the validation approach of this specification based on those properties and using the IF toolset.

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Proceedings of the 10th International Workshop on Network on Chip Architectures

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