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Electronic Control Units of safety critical systems require constant monitoring of the hardware to be able to bring the system to a safe state if any hardware defects or malfunctions are detected. This monitoring includes memory checking, peripheral checking as well as checking the main processor core. However, checking the processor core is difficult because it cannot be guaranteed that the error will be properly detected if the monitor function is running on a processing system which is malfunctioning. To circumvent this issue, several previously presented monitoring concepts (e.g. SAE#2006-01-0840) employ a second external microprocessor to communicate with the main processor to check its integrity. The addition of a second microcontroller and the associated support circuitry that is required adds to the overall costs of the ECU, increases the size and creates significant system complexity.

This paper proposes end-to-end protection mechanisms to be added to a generic FlexRay network in order to achieve fault detection and integrity levels sufficient for a SIL3 fail safe communication system. The mechanisms are derived from the random hardware failure modes to be considered for communication controllers according to IEC 61508. Mechanisms provided by the FlexRay protocol are pointed out. Additional features necessary to fulfil the requirements are discussed. It is shown how to calculate the failure rate probabilities of the CRC used as a safety code with respect to EN 50159.

This paper describes how a safety-oriented software development could look like as soon as an appropriate standard exists which is applicable for the automotive industry. Such a standard is currently being developed which is a tailoring of the safety standard IEC61508. The IEC61508 is generic and not specific for any industry. It allows tailoring of the complete safety lifecycle for specific domains. This paper focuses mainly on the software lifecycle of the evolving standard for the automotive industry. With regard to the development process the objectives of each phase are explained and it is described how these can be achieved by using certain techniques and measures.