The ROme OpTimistic Simulator is an x86 Open Source, parallel/distributed simulation platform developed using C/POSIX technology, which is based on a simulation kernel layer that ultimately relies on MPI for data exchange across different (distributed) kernel instances. The platform transparently supports all the mechanisms associated with parallelization (e.g., mapping of simulation objects on different kernel instances) and optimistic synchronization (e.g., state recoverability). The programming model supported by ROOT-Sim allows the simulation-model developer to use a simple application-callback function named ProcessEvent() as the event handler, whose parameters determine which simulation object is currently taking control for proces...
An approach to high-performance discrete event simulation consists of exploiting parallelization tec...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...
In this article we overview the ROme OpTimistic Simulator (ROOT-Sim), an open source C/MPI-based sim...
In this article we overview the ROme OpTimistic Simulator (ROOT-Sim), an open source C/MPI-based sim...
In this tutorial we present the ROme OpTimistic Simulator (ROOT-Sim), a general-purpose Parallel Dis...
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 ...
In this article we address the reshuffle of the design of optimistic simulation kernels in order to ...
In Parallel Discrete Event Simulation (PDES), the simulation model is partitioned into a set of dist...
It is well known that Parallel Discrete Event Simulation systems may suffer, in terms of delivered p...
This paper presents the design of a global memory management architecture supporting application tra...
Parallel Discrete Event Simulation (PDES) is a classical means to achieve high performance simulatio...
An approach to high-performance discrete event simulation consists of exploiting parallelization tec...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...
In this article we overview the ROme OpTimistic Simulator (ROOT-Sim), an open source C/MPI-based sim...
In this article we overview the ROme OpTimistic Simulator (ROOT-Sim), an open source C/MPI-based sim...
In this tutorial we present the ROme OpTimistic Simulator (ROOT-Sim), a general-purpose Parallel Dis...
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 ...
In this article we address the reshuffle of the design of optimistic simulation kernels in order to ...
In Parallel Discrete Event Simulation (PDES), the simulation model is partitioned into a set of dist...
It is well known that Parallel Discrete Event Simulation systems may suffer, in terms of delivered p...
This paper presents the design of a global memory management architecture supporting application tra...
Parallel Discrete Event Simulation (PDES) is a classical means to achieve high performance simulatio...
An approach to high-performance discrete event simulation consists of exploiting parallelization tec...
The advent of multi-core machines has lead to the need for revising the architecture of modern simul...
Parallel Discrete Event Simulation is a well known technique for executing complex general-purpose s...