Behavioral analysis of a fault-tolerant software system with rejuvenation

Abstract

In recent years, considerable attention has been devoted to continuously running software systems whose performance characteristics are smoothly degrading in time. Software aging often affects the performance of a software system and eventually causes it to fail. A novel approach to handle transient software failures due to software aging is called software rejuvenation, which can be regarded as a preventive and proactive solution that is particularly useful for counteracting the aging phenomenon. In this paper, we focus on a high assurance software system with fault-tolerance and preventive rejuvenation, and analyze the stochastic behavior of such a highly critical software system. More precisely, we consider a fault-tolerant software system with two-version redundant structure and random rejuvenation schedule, and evaluate quantitatively a dependability measure like the steady-state system availability based on the familiar Markovian analysis. In numerical examples, we examine the dependence of two system diversity techniques; design and environment diversity techniques, on the system dependability measure.