Impact of hardware and software faults on ARQ schemes-an experimental study

Annual Reliability and Maintainability Symposium 1995 Proceedings Pub Date : 1995-01-16 DOI:10.1109/RAMS.1995.513288

A. Jagannath, S. Rai

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引用次数: 2

Abstract

An understanding of the impact of hardware and software faults (HSFs) on any application is critical to the design of efficient software fault tolerance techniques. This paper considers HSFs and, by using a fault injection experiment, studies their impact on an automatic repeat request (ARQ) scheme in terms of throughput degradation. An ARQ scheme is used for error control in computer networks and is implemented in the data link layer. Our study shows that even in the absence of errors in the communication channel the throughput may be degraded with HSFs. Furthermore, we need to identify certain critical variables as locations for fault injection thereby elevating the fault models to a higher level of abstraction. The variables lie in the active path of the program and help accelerate the failure process. This results in fewer runs being needed in conducting the fault injection experiment. Since the accelerated failure process represents the worst case scenario for the fault models considered, the experiences would enable the fault tolerance engineer in designing/choosing fault tolerance mechanisms.

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硬件和软件故障对ARQ方案影响的实验研究

了解硬件和软件故障(hsf)对任何应用程序的影响对于设计有效的软件容错技术至关重要。本文考虑hsf，并通过故障注入实验研究了hsf对自动重复请求(ARQ)方案吞吐量退化的影响。在计算机网络中，ARQ方案用于错误控制，并在数据链路层实现。我们的研究表明，即使在通信信道中没有错误的情况下，吞吐量也可能会因高频干扰而降低。此外，我们需要识别某些关键变量作为故障注入的位置，从而将故障模型提升到更高的抽象级别。这些变量位于程序的活动路径中，有助于加速故障过程。这使得进行断层注入实验所需的运行次数更少。由于加速故障过程代表了所考虑的故障模型的最坏情况，因此经验将使容错工程师能够设计/选择容错机制。

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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Annual Reliability and Maintainability Symposium 1995 Proceedings

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