A parallel implementation for distributed-memory MIMD systems of a 2D discrete model of laser dynamics based on cellular au- tomata is presented. The model has been implemented on a PC cluster using a message passing library. A good performance has been obtained, allowing us to run realistic simulations of laser systems in clusters of workstations, which could not be a orded on an individual machine due to the extensive runtime and memory size needed.Ministerio de Educación y Ciencia TIN2005-08818-C04-0
Cellular Automata (CA) simulations can be used to model multiple systems, in fields like biology, ph...
We develop a model program for parallel execution of cellular automata on a multicomputer. The model...
This paper deals with the realization of a CA model of the physical interactions occurring when hig...
This paper presents an analysis on the performance of a parallel implementation of a discrete model...
Firstly, the application of a cellular automata (CA) model to simulate the dynamics of lasers is re...
We present a parallel implementation for Graphics Processing Units (GPUs) of a model based on cellul...
We present an analysis of the feasibility of executing a parallel bioinspired model of laser dynamic...
We present an analysis of the feasibility of executing a parallel bioinspired model of laser dynamic...
In order to analyze the feasibility of executing a parallel bioinspired model of laser dynamics on a...
The classical modeling approach for laser study relies on the differential equations. In this paper,...
The different kinds of behavior exhibited by the system in a laser dynamics simulation using a cell...
In this paper we show how to efficiently implement parallel discrete simulations on multicoreandGPUar...
Laser dynamics is traditionally modeled using differential equations. Recently, a new approach has ...
We develop a model program for parallel execution of cellular automata on a mul-ticomputer. The mode...
The emergence of multicore architectures and the chip industry’s plan to roll out hundreds of cores ...
Cellular Automata (CA) simulations can be used to model multiple systems, in fields like biology, ph...
We develop a model program for parallel execution of cellular automata on a multicomputer. The model...
This paper deals with the realization of a CA model of the physical interactions occurring when hig...
This paper presents an analysis on the performance of a parallel implementation of a discrete model...
Firstly, the application of a cellular automata (CA) model to simulate the dynamics of lasers is re...
We present a parallel implementation for Graphics Processing Units (GPUs) of a model based on cellul...
We present an analysis of the feasibility of executing a parallel bioinspired model of laser dynamic...
We present an analysis of the feasibility of executing a parallel bioinspired model of laser dynamic...
In order to analyze the feasibility of executing a parallel bioinspired model of laser dynamics on a...
The classical modeling approach for laser study relies on the differential equations. In this paper,...
The different kinds of behavior exhibited by the system in a laser dynamics simulation using a cell...
In this paper we show how to efficiently implement parallel discrete simulations on multicoreandGPUar...
Laser dynamics is traditionally modeled using differential equations. Recently, a new approach has ...
We develop a model program for parallel execution of cellular automata on a mul-ticomputer. The mode...
The emergence of multicore architectures and the chip industry’s plan to roll out hundreds of cores ...
Cellular Automata (CA) simulations can be used to model multiple systems, in fields like biology, ph...
We develop a model program for parallel execution of cellular automata on a multicomputer. The model...
This paper deals with the realization of a CA model of the physical interactions occurring when hig...