In this work we address state recoverability in advanced optimistic simulation systems by proposing an evolutionary algorithm to optimize at run-time the parameters associated with state log/restore activities. Optimization takes place by adaptively selecting for each simulation object both (i) the best suited log mode (incremental vs non-incremental) and (ii) the corresponding optimal value of the log interval. Our performance optimization approach allows to indirectly cope with hidden effects (e.g., locality) as well as cross-object effects due to the variation of log/restore parameters for different simulation objects (e.g., rollback thrashing). Both of them are not captured by literature solutions based on analytical models of the overhead associated with log/restore tasks. More in detail, our evolutionary algorithm dynamically adjusts the log/restore parameters of distinct simulation objects as a whole, towards a well suited configuration. In such a way, we prevent negative effects on performance due to the biasing of the optimization towards individual simulation objects, which may cause reduced gains (or even decrease) in performance just due to the aforementioned hidden and/or cross-object phenomena. We also present an application-transparent implementation of the evolutionary algorithm within the ROme OpTimistic Simulator (ROOTSim), namely an open source, general purpose simulation environment designed according to the optimistic synchronization paradigm. Further, we provide the results of an experimental study testing our proposal on a suite of simulation models for wireless communication systems.

Pellegrini, A., Vitali, R., Quaglia, F. (2011). An evolutionary algorithm to optimize log/restore operations within optimistic simulation platforms. In SIMUTools 2011 - 4th International ICST Conference on Simulation Tools and Techniques (pp.206-215). ICST [10.4108/icst.simutools.2011.245556].

An evolutionary algorithm to optimize log/restore operations within optimistic simulation platforms

Alessandro Pellegrini;Francesco Quaglia
2011-01-01

Abstract

In this work we address state recoverability in advanced optimistic simulation systems by proposing an evolutionary algorithm to optimize at run-time the parameters associated with state log/restore activities. Optimization takes place by adaptively selecting for each simulation object both (i) the best suited log mode (incremental vs non-incremental) and (ii) the corresponding optimal value of the log interval. Our performance optimization approach allows to indirectly cope with hidden effects (e.g., locality) as well as cross-object effects due to the variation of log/restore parameters for different simulation objects (e.g., rollback thrashing). Both of them are not captured by literature solutions based on analytical models of the overhead associated with log/restore tasks. More in detail, our evolutionary algorithm dynamically adjusts the log/restore parameters of distinct simulation objects as a whole, towards a well suited configuration. In such a way, we prevent negative effects on performance due to the biasing of the optimization towards individual simulation objects, which may cause reduced gains (or even decrease) in performance just due to the aforementioned hidden and/or cross-object phenomena. We also present an application-transparent implementation of the evolutionary algorithm within the ROme OpTimistic Simulator (ROOTSim), namely an open source, general purpose simulation environment designed according to the optimistic synchronization paradigm. Further, we provide the results of an experimental study testing our proposal on a suite of simulation models for wireless communication systems.
4th International ICST Conference on Simulation Tools and Techniques, SIMUTools 2011
2011
The Center for Research and Telecommunication Experimentation for NETworked Communities (CREATE-NET)
Rilevanza internazionale
2011
Settore ING-INF/05 - SISTEMI DI ELABORAZIONE DELLE INFORMAZIONI
English
Code instrumentation
Evolutionary algorithms
Parallel discrete event simulation
State recoverability
Intervento a convegno
Pellegrini, A., Vitali, R., Quaglia, F. (2011). An evolutionary algorithm to optimize log/restore operations within optimistic simulation platforms. In SIMUTools 2011 - 4th International ICST Conference on Simulation Tools and Techniques (pp.206-215). ICST [10.4108/icst.simutools.2011.245556].
Pellegrini, A; Vitali, R; Quaglia, F
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/323641
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