Discrete event-driven simulation makes it possible to model a computer system in detail. However, such simulation models can require a significant time to execute. This is especially true when modeling large parallel or distributed systems containing many processors and a complex communication network. One solution is to distribute the simulation over several processors. If enough parallelism is achieved, large simulation models can be efficiently executed. This study proposes a distributed simulator called DSIM which can run on various architectures. A simulated test environment is used to verify and characterize the performance of DSIM. The results of the experiments indicate that speedup is application-dependent and, in DSIM's case, is a...
As the speed increase of single-core processors keeps declining, it is important to adapt simulation...
Distributed Discrete Event Simulation (DDES) has received much attention in recent years, owing to t...
Distributed systems are in the mainstream of information technology. It has become standard to rely ...
Journal ArticleThis paper describes a technique to analyze the potential speedup of distributed simu...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
The simulation framework developed within the "Models of Networked Analysis at Regional Centers" (MO...
This paper describes an approach to discrete event simulation modeling that appears to be effective ...
Parallel or distributed simulation is becoming more than a novel way to speedup design evaluation; i...
Distributed shared memory systems have become popular as a means of utilizing clusters of com-puters...
Journal ArticleA multiprocessor-based, distributed simulation testbed is described that facilitates ...
Discrete-event simulation is a commonly used technique to model changes within a complex physical sy...
As massively parallel computers proliferate, there is growing interest in findings ways by which per...
The Discrete Time Network Simulator (DTNS) is a System-on-Chip (SoC) simulator developed at Tampere ...
Journal ArticleThis paper describes experience in parallelizing an execution-driven architectural si...
A state-of-the-art guide for the implementation of distributed simulation technology.The rapid expan...
As the speed increase of single-core processors keeps declining, it is important to adapt simulation...
Distributed Discrete Event Simulation (DDES) has received much attention in recent years, owing to t...
Distributed systems are in the mainstream of information technology. It has become standard to rely ...
Journal ArticleThis paper describes a technique to analyze the potential speedup of distributed simu...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
The simulation framework developed within the "Models of Networked Analysis at Regional Centers" (MO...
This paper describes an approach to discrete event simulation modeling that appears to be effective ...
Parallel or distributed simulation is becoming more than a novel way to speedup design evaluation; i...
Distributed shared memory systems have become popular as a means of utilizing clusters of com-puters...
Journal ArticleA multiprocessor-based, distributed simulation testbed is described that facilitates ...
Discrete-event simulation is a commonly used technique to model changes within a complex physical sy...
As massively parallel computers proliferate, there is growing interest in findings ways by which per...
The Discrete Time Network Simulator (DTNS) is a System-on-Chip (SoC) simulator developed at Tampere ...
Journal ArticleThis paper describes experience in parallelizing an execution-driven architectural si...
A state-of-the-art guide for the implementation of distributed simulation technology.The rapid expan...
As the speed increase of single-core processors keeps declining, it is important to adapt simulation...
Distributed Discrete Event Simulation (DDES) has received much attention in recent years, owing to t...
Distributed systems are in the mainstream of information technology. It has become standard to rely ...