Software aging and multifractality of memory resources

Shereshevsky, M.; Crowell, J.; Čukić, Bojan; Gandikota, V.; Liu, Yan

doi:10.1109/dsn.2003.1209987

Cited by 51 publications

(32 citation statements)

References 8 publications

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“…Using a non-parametric technique, Garg et al determined the global aging trend and calculate the estimated time until complete exhaustion via linear extrapolation for each resource. In case some form of rejuvenation or periodicity is already implemented by the system, as in the Apache Web server , piecewise linear (Castelli et al 2001), autoregressive time series with deterministic seasonal component , nonlinear statistical methods (Hoffman et al 2006), and fractal-based methods (Shereshevsky et al 2003) have also been used on such data. Regardless of the prediction method used, the resources selected for monitoring must be determined to minimize the monitoring overhead.…”

Section: Proactive Recovery and Aging-related Bugsmentioning

confidence: 99%

Software fault mitigation and availability assurance techniques

Trivedi

Grottke

Andrade

2010

Int J Syst Assur Eng Manag

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Companies are expected to keep their systems up and running and make data continuously available. Several recent studies have established that most system outages are due to software faults. In this paper, we discuss availability aspects of large software-based systems. We begin by classifying software faults into Bohrbugs and Mandelbugs, and identify aging-related bugs as a subtype of the latter. We then examine mitigation methods for Mandelbugs in general and aging-related bugs in particular. Finally, we discuss techniques for the quantitative availability assurance for such systems.

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Section: Proactive Recovery and Aging-related Bugsmentioning

confidence: 99%

Software fault mitigation and availability assurance techniques

Trivedi

Grottke

Andrade

2010

Int J Syst Assur Eng Manag

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“…Based on the collected data, they construct software rejuvenation model to get the optimal rejuvenation schedule. Shereshevsky et al [21] monitor the Hölder exponent (a measure of the local rate of fractality, refer to [21]) of the system parameters and find that system crashes are often preceded by the second abrupt increase in this measure.…”

Section: Introduction *mentioning

confidence: 99%

A Nonlinear Approach to Modeling of Software Aging in a Web Server

Jia

Zhao

Cai

2008

2008 15th Asia-Pacific Software Engineering Conference

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Software aging refers to the phenomenon that the performance degradation, increasing failure rate or massive resource usage demonstrated in long-running software systems such as web servers. It was reported that software aging has a significant relationship with resource usage. To study the software aging phenomenon in web servers, we built an experimental platform with a server and multiple clients to collect the data of system resource usage on the server. In this paper, we present several experiments based on the platform and study software aging phenomenon of a widely used web server software systemthe Apache HTTP server. Some repeatable software aging phenomena are observed in our experiments. The process of software aging is shown to be nonlinear and chaotic. In order to better present the nonlinear interplay of various resource parameters of web server and forecast resource exhaustion, a nonlinear dynamic model of software aging is constructed to formulate software aging process.

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“…For instance, operating system resources such as swap space and free memory available are progressively depleted due to defects in software such as memory leaks and incomplete cleanup of resources after use. It is well known that software aging will affect the performance of applications and eventually cause them to fail [1], [2], [7], [8], [15], [23], [29]. Software aging has been observed in widely-used communication software like Internet Explorer, Netscape and xrn as well as commercial * The present research was partially supported by Grant-in-Aids for Scientific Research from the Ministry of Education, Sports, Science and Culture of Japan under Grant Nos.…”

Section: Introductionmentioning

confidence: 99%

Non-parametric Predictive Inference of Preventive Rejuvenation Schedule in Operational Software Systems

Rinsaka

2007

The 18th IEEE International Symposium on Software Reliability (ISSRE '07)

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In this paper we develop a novel approach to estimate the optimal preventive rejuvenation schedule which maximizes the steady-state system availability. In the case with unknown system failure time distribution, the preventive rejuvenation is triggered for the purpose of preventive maintenance of software system. We formulate the upper and lower bounds of the predictive system availability using the one-look ahead predictive survivor function, and derive the pessimistic and optimistic rejuvenation policies. In the real data analysis we focus on a real web server system and show the usefulness of the non-parametric predictive inference approach proposed in this paper.

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Software aging and multifractality of memory resources

Cited by 51 publications

References 8 publications

Software fault mitigation and availability assurance techniques

Software fault mitigation and availability assurance techniques

A Nonlinear Approach to Modeling of Software Aging in a Web Server

Non-parametric Predictive Inference of Preventive Rejuvenation Schedule in Operational Software Systems

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