Membrane Dissolution in Distributed Architectures of P-Systems

Peña Camacho, Miguel Ángel and Bravo García, Ginés and Mingo López, Luis Fernando de (2011). Membrane Dissolution in Distributed Architectures of P-Systems. In: "ACACOS'11 10th WSEAS international conference on Applied computer and applied computational science", 08/03/2011 - 10/03/2011, Venecia, Italia. ISBN 978-960-474-281-3.

Description

Title: Membrane Dissolution in Distributed Architectures of P-Systems
Author/s:
  • Peña Camacho, Miguel Ángel
  • Bravo García, Ginés
  • Mingo López, Luis Fernando de
Item Type: Presentation at Congress or Conference (Article)
Event Title: ACACOS'11 10th WSEAS international conference on Applied computer and applied computational science
Event Dates: 08/03/2011 - 10/03/2011
Event Location: Venecia, Italia
Title of Book: ACACOS'11 Proceedings of the 10th WSEAS international conference on Applied computer and applied computational science
Date: 2011
ISBN: 978-960-474-281-3
Subjects:
Faculty: Facultad de Informática (UPM)
Department: Inteligencia Artificial
Creative Commons Licenses: Recognition - No derivative works - Non commercial

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Abstract

The goal of this paper is twofold. Firstly, to survey in a systematic and uniform way the main results regarding the way membranes can be placed on processors in order to get a software/hardware simulation of P-Systems in a distributed environment. Secondly, we improve some results about the membrane dissolution problem, prove that it is connected, and discuss the possibility of simulating this property in the distributed model. All this yields an improvement in the system parallelism implementation since it gets an increment of the parallelism of the external communication among processors. Also, the number of processors grows in such a way that is notorious the increment of the parallelism in the application of the evolution rules and the internal communica-tionsstudy because it gets an increment of the parallelism in the application of the evolution rules and the internal communications. Proposed ideas improve previous architectures to tackle the communication bottleneck problem, such as reduction of the total time of an evolution step, increase of the number of membranes that could run on a processor and reduction of the number of processors

More information

Item ID: 12178
DC Identifier: https://oa.upm.es/12178/
OAI Identifier: oai:oa.upm.es:12178
Deposited by: Memoria Investigacion
Deposited on: 04 Sep 2012 10:55
Last Modified: 21 Apr 2016 11:22
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