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 overh...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Traditionally, Logical Processes (LPs) forming a simulation model store their execution information ...
We address performance issues associated with simulationbased algorithms for optimizing Markov rewar...
In this work we address state recoverability in advanced optimistic simulation systems by proposing ...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
In this article we focus on checkpoint/restore facilities for optimistic simulation objects with gen...
The rollback operation is a fundamental building block to support the correct execution of a specula...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
In parallel discrete event simulation techniques, the simulation model is partitioned into objects, ...
The rollback operation is a fundamental building block to support the correct execution of a specula...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Traditionally, Logical Processes (LPs) forming a simulation model store their execution information ...
We address performance issues associated with simulationbased algorithms for optimizing Markov rewar...
In this work we address state recoverability in advanced optimistic simulation systems by proposing ...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
In this article we focus on checkpoint/restore facilities for optimistic simulation objects with gen...
The rollback operation is a fundamental building block to support the correct execution of a specula...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
In parallel discrete event simulation techniques, the simulation model is partitioned into objects, ...
The rollback operation is a fundamental building block to support the correct execution of a specula...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Traditionally, Logical Processes (LPs) forming a simulation model store their execution information ...
We address performance issues associated with simulationbased algorithms for optimizing Markov rewar...