Title :
System Availability Analysis Considering Hardware/Software Failure Severities
Author :
Gokhale, Swapna S. ; Crigler, John R. ; Farr, William H. ; Wallace, Dolores R.
Author_Institution :
Dept. of Comput. Sci. & Eng., Connecticut Univ., Storrs, CT
Abstract :
Model-based analysis is a well-established approach to assess the influence of several factors on system availability within the context of system structure. Prevalent availability models in the literature consider all failures to be equivalent in terms of their consequences on system services. In other words, all the failures are assumed to be of the same level of severity. In practice, failures are typically classified into multiple severity levels, where failures belonging to the highest severity level cause a complete loss of service, while failures belonging to levels below the highest level enable the system to operate in a degraded mode. This makes it necessary to consider the influence of failure severities on system availability. In this paper we present a Markov model which considers failure severities of the components of the system in conjunction with its structure. The model also incorporates the repair of the components. Based on the model, we derive a closed form expression which relates system availability to the failure and repair parameters of the components. The failure parameters in the model are estimated based on the data collected during acceptance testing of a satellite system. However, since adequate data are not available to estimate the repair parameters, the closed form expressions are used to assess the sensitivity of the system availability to the repair parameters
Keywords :
Markov processes; aerospace computing; failure analysis; safety-critical software; software fault tolerance; Markov model; closed form expression; component repair; hardware/software failure severity; model-based analysis; satellite system acceptance testing; system availability analysis; Availability; Context modeling; Degradation; Failure analysis; Hardware; NASA; Software safety; Space missions; Space technology; System testing;
Conference_Titel :
Software Engineering Workshop, 2005. 29th Annual IEEE/NASA
Conference_Location :
Greenbelt, MD
Print_ISBN :
0-7695-2306-4
DOI :
10.1109/SEW.2005.43