Modern advancements in computing architectures have been accompanied by new emergent paradigms to run Parallel Discrete Event Simulation models efficiently. Indeed, many new paradigms to effectively use the available underlying hardware have been proposed in the literature. Among these, the Share-Everything paradigm tackles massively-parallel shared-memory machines, in order to support speculative simulation by taking into account the limits and benefits related to this family of architectures. Previous results have shown how this paradigm outperforms traditional speculative strategies (such as data-separated Time Warp systems) whenever the granularity of executed events is small. In this paper, we show performance implications of this simu...
In this work we illustrate the design and implementation guidelines of a recently developed middlewa...
The large diffusion of highly-parallel shared-memory multi-core machines has led Parallel Discrete E...
Discrete event simulation is an important tool for evaluating system models in many fields of scienc...
Modern advancements in computing architectures have been accompanied by new emergent paradigms to ru...
Modern advancements in computing architectures have been accompanied by new emergent paradigms to ru...
Shared-memory multi-processor/multi-core machines have become a reference for many application conte...
Microscopic traffic simulation is the most accurate tool for predictive analytics in urban environme...
Parallel Discrete Event Simulation (PDES) is based on the partitioning of the simulation model into ...
Simulation is a powerful technique to represent the evolution of realworld phenomena or systems ove...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
The large diffusion of multi-core machines has pushed the research in the field of Parallel Discrete...
The share-everything PDES (Parallel Discrete Event Simulation) paradigm is based on fully sharing th...
In Parallel Discrete Event Simulation (PDES), the simulation model is partitioned into a set of dist...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
In this work we illustrate the design and implementation guidelines of a recently developed middlewa...
The large diffusion of highly-parallel shared-memory multi-core machines has led Parallel Discrete E...
Discrete event simulation is an important tool for evaluating system models in many fields of scienc...
Modern advancements in computing architectures have been accompanied by new emergent paradigms to ru...
Modern advancements in computing architectures have been accompanied by new emergent paradigms to ru...
Shared-memory multi-processor/multi-core machines have become a reference for many application conte...
Microscopic traffic simulation is the most accurate tool for predictive analytics in urban environme...
Parallel Discrete Event Simulation (PDES) is based on the partitioning of the simulation model into ...
Simulation is a powerful technique to represent the evolution of realworld phenomena or systems ove...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
The large diffusion of multi-core machines has pushed the research in the field of Parallel Discrete...
The share-everything PDES (Parallel Discrete Event Simulation) paradigm is based on fully sharing th...
In Parallel Discrete Event Simulation (PDES), the simulation model is partitioned into a set of dist...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
In this work we illustrate the design and implementation guidelines of a recently developed middlewa...
The large diffusion of highly-parallel shared-memory multi-core machines has led Parallel Discrete E...
Discrete event simulation is an important tool for evaluating system models in many fields of scienc...