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Parallel processing applied to the design of concrete encased grounding electrodes
Keywords:
Parallel Processing, High Performance Processing, Concrete Encased Grounding Electrode, Parallel Programming ToolAbstract
This work presents the authors investigation regarding the application of parallel processing to the design of grounding systems, comprising concrete encased electrodes. The natural parallelism of the involved tasks and the large time-consuming characteristic of sequential processing for this kind of application justify the use of high performance computation. This design problem presents two main approaches for parallelism exploring. This work shows the advantages of parallel processing for generation of a geometric coefficient matrix, which describes the basic relations among currents and potentials at the grounding system. The grounding model has been developed at Federal University of Minas Gerais and, for implementing the parallel algorithm version, a computational tool (CPAR), which was developed in Polytechnic School of São Paulo University, was employed.
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References
[1] POLYCHRONOPOULOS, C.D., Parallel Programming and Compilers, Kluwer Academic Publishers, 1989.
[2] SATO, L.M., A Programming and Parallel Processing System for Multiprocessor Basis, Proceedings of IV Brazilian Symposium on Computer Architecture - High Performance Processing, p.95-107, 1992, São Paulo, Brazil.
[3] SATO, L.M., Parallel and Distributed System Programming Environment, Thesis (in Portuguese), Department of Electrical Engineering, USP - Politechnique School of University of São Paulo, Brazil, 1995.
[4] VISACRO, S. F., Grounding and Earthing - Concepts, Instrumentation and Measurement Techniques, Grounding Philosophy, Book (in Portuguese), Alphagraphics, 1997, Belo Horizonte, Brazil.
[5] VISACRO, S. F., RIBEIRO, H. A., Some Evaluations Concerning the Performance of Concrete-encased Electrodes: an Approach by the Boundary Elements, Proceedings of the International Conference on Grounding and Earthing, April 12-16, 1998, Belo Horizonte, Brazil
[2] SATO, L.M., A Programming and Parallel Processing System for Multiprocessor Basis, Proceedings of IV Brazilian Symposium on Computer Architecture - High Performance Processing, p.95-107, 1992, São Paulo, Brazil.
[3] SATO, L.M., Parallel and Distributed System Programming Environment, Thesis (in Portuguese), Department of Electrical Engineering, USP - Politechnique School of University of São Paulo, Brazil, 1995.
[4] VISACRO, S. F., Grounding and Earthing - Concepts, Instrumentation and Measurement Techniques, Grounding Philosophy, Book (in Portuguese), Alphagraphics, 1997, Belo Horizonte, Brazil.
[5] VISACRO, S. F., RIBEIRO, H. A., Some Evaluations Concerning the Performance of Concrete-encased Electrodes: an Approach by the Boundary Elements, Proceedings of the International Conference on Grounding and Earthing, April 12-16, 1998, Belo Horizonte, Brazil
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Published
2001-10-01
How to Cite
Murta Vale, M. H., Silveira, H. de A., Visacro Filho, S., & Matsumoto Sato, L. (2001). Parallel processing applied to the design of concrete encased grounding electrodes. Journal of Computer Science and Technology, 1(05), 11 p. Retrieved from https://journal.info.unlp.edu.ar/JCST/article/view/981
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