The high frequency code ARCHAEOPTERYX developed at the Department of Electronics and Telecommunication of the University of Florence for predicting the Radar Cross Section (RCS) of complex targets is based on both Physical Optics and Physical Theory of Diffraction. The calculation of RCS is particularly suited for distributed computing because each component into which complex targets can be decomposed can be analyzed separately. In this contribution the code is implemented using cluster computing, demonstrating the very efficient performance of the parallel environment.
Parallel implementation of a high frequency code for the prediction of the RCS from complex targets using the parallel virtual machine / M. Vespe;S. Selleri;G. Pelosi. - STAMPA. - 4:(2004), pp. 4515-4518. (Intervento presentato al convegno IEEE Antennas and Propagation Society Symposium, 2004. tenutosi a Monterey, CA nel 20-25 June 2004) [10.1109/APS.2004.1330356].
Parallel implementation of a high frequency code for the prediction of the RCS from complex targets using the parallel virtual machine
SELLERI, STEFANO;PELOSI, GIUSEPPE
2004
Abstract
The high frequency code ARCHAEOPTERYX developed at the Department of Electronics and Telecommunication of the University of Florence for predicting the Radar Cross Section (RCS) of complex targets is based on both Physical Optics and Physical Theory of Diffraction. The calculation of RCS is particularly suited for distributed computing because each component into which complex targets can be decomposed can be analyzed separately. In this contribution the code is implemented using cluster computing, demonstrating the very efficient performance of the parallel environment.
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