用于容错实时系统的不停机微处理器

Shota Nakabeppu, N. Yamasaki
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摘要

嵌入式实时系统的容错设计对于保证系统的可靠性是非常重要的。特别是,当发生电源故障时,在使用传统处理器的实时系统中,需要在电源恢复后重新启动处理。即使电力很快恢复,重启过程也需要很长时间,并导致错过最后期限。为了设计一个容错的实时系统,需要有一个处理器,在恢复电源后,即使在任何时候发生电源故障,也能在短时间内立即恢复运行。由于当前的嵌入式实时系统需要执行许多任务,因此高吞吐量的高可调度性也很重要。本文提出了一种不间断微处理器体系结构来实现容错实时系统。不停机微处理器的设计目的是即使在任何时候发生电源故障也能恢复正常运行,即使多次创建和恢复检查点也能实现小的性能下降,具有很高的可调度性,通过软件配置灵活地控制非易失性设备,并且无论何时执行检查点恢复都能保证数据的一致性。评估表明,不停机微处理器可以在5µs内恢复检查点,并且几乎隐藏了检查点创建的开销。具有这种能力的不间断微处理器将成为具有高可调度性的容错实时系统的重要组成部分。
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Non-Stop Microprocessor for Fault-Tolerant Real-Time Systems
SUMMARY It is very important to design an embedded real-time sys- tem as a fault-tolerant system to ensure dependability. In particular, when a power failure occurs, restart processing after power restoration is required in a real-time system using a conventional processor. Even if power is restored quickly, the restart process takes a long time and causes deadline misses. In order to design a fault-tolerant real-time system, it is necessary to have a processor that can resume operation in a short time immediately after power is restored, even if a power failure occurs at any time. Since current embedded real-time systems are required to execute many tasks, high schedulability for high throughput is also important. This paper proposes a non-stop microprocessor architecture to achieve a fault-tolerant real-time system. The non-stop microprocessor is designed so as to resume normal operation even if a power failure occurs at any time, to achieve little per- formance degradation for high schedulability even if checkpoint creations and restorations are performed many times, to control flexibly non-volatile devices through software configuration, and to ensure data consistency no matter when a checkpoint restoration is performed. The evaluation shows that the non-stop microprocessor can restore a checkpoint within 5 µ sec and almost hide the overhead of checkpoint creations. The non-stop mi- croprocessor with such capabilities will be an essential component of a fault-tolerant real-time system with high schedulability.
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