An approach for redundancy in FlexRay networks using FPGA partial reconfiguration

Shanker Shreejith, Kizheppatt Vipin, Suhaib A. Fahmy, M. Lukasiewycz
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引用次数: 26

Abstract

Safety-critical in-vehicle electronic control units (ECUs) demand high levels of determinism and isolation, since they directly influence vehicle behaviour and passenger safety. As modern vehicles incorporate more complex computational systems, ensuring the safety of critical systems becomes paramount. One-to-one redundant units have been previously proposed as measures for evolving critical functions like x-by-wire. However, these may not be viable solutions for power-constrained systems like next generation electric vehicles. Reconfigurable architectures offer alternative approaches to implementing reliable safety critical systems using more efficient hardware. In this paper, we present an approach for implementing redundancy in safety-critical in-car systems, that uses FPGA partial reconfiguration and a customised bus controller to offer fast recovery from faults. Results show that such an integrated design is better than alternatives that use discrete bus interface modules.
FlexRay网络中使用FPGA部分重构实现冗余的方法
安全关键型车载电子控制单元(ecu)需要高水平的确定性和隔离性,因为它们直接影响车辆行为和乘客安全。随着现代车辆采用更复杂的计算系统,确保关键系统的安全变得至关重要。一对一冗余单元先前已被提议作为发展关键功能(如x-by-wire)的措施。然而,对于下一代电动汽车等电力有限的系统来说,这些可能不是可行的解决方案。可重构架构为使用更高效的硬件实现可靠的安全关键系统提供了替代方法。在本文中,我们提出了一种在安全关键的车载系统中实现冗余的方法,该方法使用FPGA部分重构和定制总线控制器来提供从故障中快速恢复。结果表明,这种集成设计优于使用分立总线接口模块的替代方案。
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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