The Time Warp synchronization protocol for Parallel Discrete Event Simulation (PDES) is universally considered a viable solution to exploit the intrinsic simulation model parallelism and to provide model execution speedup. Yet it leads the PDES system to execute events in an order that may generate causal inconsistencies that need to be recovered via rollback, which requires restoration of a previous (consistent) simulation state whenever a causality violation is detected. The rollback operation is so critical for the performance of a Time Warp system that it has been extensively studied in the literature for decades to find approaches suitable to optimize it. The proposed solutions can be roughly classified as based on either checkpointing...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
We present a new approach to Parallel Discrete Event Simulation (PDES), where we enable the executio...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
The Time Warp synchronization protocol for Parallel Discrete Event Simulation (PDES) is universally ...
The Time Warp synchronization protocol for Parallel Discrete Event Simulation (PDES) is universally ...
State recoverability is a crucial aspect of speculative Time Warp-based Parallel Discrete Event Simu...
Speculative parallel discrete event simulation requires a support for reversing processed events, al...
This paper presents a checkpointing-recovery scheme for Time Warp parallel simulation. The scheme re...
A rollback operation in a speculative parallel discrete event simulator has traditionally targeted t...
Discrete event simulation is an important tool for modeling and analysis. Some of the simulation app...
In optimistic parallel simulations, state-saving techniques have been traditionally used to realize ...
Speculative parallel discrete event simulation requires a support for reversing processed events, al...
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...
In this paper we present a software approach, namely Fast-software-Checkpointing (FSC), to reduce th...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
We present a new approach to Parallel Discrete Event Simulation (PDES), where we enable the executio...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
The Time Warp synchronization protocol for Parallel Discrete Event Simulation (PDES) is universally ...
The Time Warp synchronization protocol for Parallel Discrete Event Simulation (PDES) is universally ...
State recoverability is a crucial aspect of speculative Time Warp-based Parallel Discrete Event Simu...
Speculative parallel discrete event simulation requires a support for reversing processed events, al...
This paper presents a checkpointing-recovery scheme for Time Warp parallel simulation. The scheme re...
A rollback operation in a speculative parallel discrete event simulator has traditionally targeted t...
Discrete event simulation is an important tool for modeling and analysis. Some of the simulation app...
In optimistic parallel simulations, state-saving techniques have been traditionally used to realize ...
Speculative parallel discrete event simulation requires a support for reversing processed events, al...
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...
In this paper we present a software approach, namely Fast-software-Checkpointing (FSC), to reduce th...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
We present a new approach to Parallel Discrete Event Simulation (PDES), where we enable the executio...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...