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Digital Library of the
European Council for Modelling and Simulation |
Title: |
Modeling And Simulation Of Embryonic Hardware Structures Designed On
FPGA-based Artificial Cell Network Topologies |
Authors: |
Csaba Szász, V. Chindriş,
Loránd Szabó |
Published in: |
(2009).ECMS
2009 Proceedings edited by J. Otamendi, A. Bargiela, J. L. Montes, L. M. Doncel
Pedrera. European Council for Modeling and
Simulation. doi:10.7148/2009 ISBN: 978-0-9553018-8-9 23rd
European Conference on Modelling and Simulation, Madrid, June
9-12, 2009 |
Citation
format: |
Szasz, C., Chindris,
V., & Szabo, L. (2009). Modeling And Simulation
Of Embryonic Hardware Structures Designed On FPGA-based Artificial Cell
Network Topologies. ECMS 2009 Proceedings edited by J. Otamendi,
A. Bargiela, J. L. Montes, L. M. Doncel Pedrera (pp.
613-617). European Council for Modeling and Simulation. doi:10.7148/2009-0613-0617 |
DOI: |
http://dx.doi.org/10.7148/2009-0613-0617 |
Abstract: |
The
cell-based structure, which makes up the majority of biological organisms, involve nearly perfect self- organization,
self-reproduction (multiplying), and fault- tolerance properties in a well
organized hierarchical mechanism. By adapting these mechanisms and
capabilities from nature, scientific approaches have helped researches
understand related phenomena and associated with principles to engine complex
novel digital systems and improve their capability. Founded by these
observations, the paper is focused on computer-aided modeling and simulation
of embryonic hardware configurations designed on FPGA-based artificial cell
network topologies. Own developed artificial cell model and artificial
organism models are proposed, as basic components of a four level embryonic
hardware structures. These models are careful tested through computer-aided
investigations, using a specially developed software toolkit designed for
VLSI systems real-time simulation operations. |
Full
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