Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose simulations where models are described as objects the interaction of which is expressed through the generation of impulsive events. In particular, Optimistic Simulation allows full exploitation of the available computational power, avoiding the need to compute safety properties for the events to be executed. Optimistic Simulation platforms internally rely on several data structures, which are meant to support operations aimed at ensuring correctness, inter-kernel communication and/or event scheduling. These housekeeping and management operations access them according to complex patterns, commonly suffering from misuse of memory caching architec...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
It is well known that Parallel Discrete Event Simulation systems may suffer, in terms of delivered p...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...
In parallel discrete event simulation techniques, the simulation model is partitioned into objects, ...
Parallel Discrete Event Simulation (PDES) is based on the partitioning of the simulation model into ...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Optimistic synchronization is considered an effective means for supporting Parallel Discrete Event S...
Parallel Discrete Event Simulation (PDES) is a classical means to achieve high performance simulatio...
In Parallel Discrete Event Simulation (PDES), the simulation model is partitioned into a set of dist...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
Simulation is a powerful technique to represent the evolution of realworld phenomena or systems ove...
The rollback operation is a fundamental building block to support the correct execution of a specula...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
It is well known that Parallel Discrete Event Simulation systems may suffer, in terms of delivered p...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...
In parallel discrete event simulation techniques, the simulation model is partitioned into objects, ...
Parallel Discrete Event Simulation (PDES) is based on the partitioning of the simulation model into ...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...
We present the design and implementation of an autonomic state manager (ASM) tailored for integratio...
Optimistic synchronization is considered an effective means for supporting Parallel Discrete Event S...
Parallel Discrete Event Simulation (PDES) is a classical means to achieve high performance simulatio...
In Parallel Discrete Event Simulation (PDES), the simulation model is partitioned into a set of dist...
In this paper we address state recoverability in optimistic simulation systems by presenting an auto...
Simulation is a powerful technique to represent the evolution of realworld phenomena or systems ove...
The rollback operation is a fundamental building block to support the correct execution of a specula...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
It is well known that Parallel Discrete Event Simulation systems may suffer, in terms of delivered p...
Simulation is a powerful technique to explore complex scenarios and analyze systems related to a wid...