The rollback operation is a fundamental building block to support the correct execution of a speculative Time Warp-based Parallel Discrete Event Simulation. In the literature, several solutions to reduce the execution cost of this operation have been proposed, either based on the creation of a checkpoint of previous simulation state images, or on the execution of negative copies of simulation events which are able to undo the updates on the state. In this paper, we explore the practical design and implementation of a state recoverability technique which allows to restore a previous simulation state either relying on checkpointing or on the reverse execution of the state updates occurred while processing events in forward mode. Differently f...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Traditionally, Logical Processes (LPs) forming a simulation model store their execution information ...
The rollback operation is a fundamental building block to support the correct execution of a specula...
The rollback operation is a fundamental building block to support the correct execution of a specula...
State recoverability is a crucial aspect of speculative Time Warp-based Parallel Discrete Event Simu...
A rollback operation in a speculative parallel discrete event simulator has traditionally targeted t...
Speculative parallel discrete event simulation requires a support for reversing processed events, al...
In optimistic parallel simulations, state-saving techniques have been traditionally used to realize ...
This paper presents a checkpointing-recovery scheme for Time Warp parallel simulation. The scheme re...
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...
Discrete event simulation is an important tool for modeling and analysis. Some of the simulation app...
In this thesis, we propose an innovative approach to reversible computing that shifts the focus from...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Traditionally, Logical Processes (LPs) forming a simulation model store their execution information ...
The rollback operation is a fundamental building block to support the correct execution of a specula...
The rollback operation is a fundamental building block to support the correct execution of a specula...
State recoverability is a crucial aspect of speculative Time Warp-based Parallel Discrete Event Simu...
A rollback operation in a speculative parallel discrete event simulator has traditionally targeted t...
Speculative parallel discrete event simulation requires a support for reversing processed events, al...
In optimistic parallel simulations, state-saving techniques have been traditionally used to realize ...
This paper presents a checkpointing-recovery scheme for Time Warp parallel simulation. The scheme re...
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...
Discrete event simulation is an important tool for modeling and analysis. Some of the simulation app...
In this thesis, we propose an innovative approach to reversible computing that shifts the focus from...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Traditionally, Logical Processes (LPs) forming a simulation model store their execution information ...