We deal with an approach to the design of array based, 2D echo generators. The radiating elements are located on non-uniform grids and the Quiet Zone (QZ) design specifications are enforced at non uniformly spaced sampling locations. The radiating element positions and QZ design specification matching points are determined by a singular values optimization process. In order to properly manage the computational burden, a proper parallel programming strategy is employed, in particular, by exploiting the potentialities recently offered by Graphics Processing Units (GPUs) through the Jacket Matlab toolbox. Numerical results assess the performance of the technique in terms of computational requirements and QZ field behavior.
GPU-accelerated synthesis of echo generators / Capozzoli, Amedeo; Curcio, Claudio; Liseno, Angelo. - (2011), pp. 3184-3188. (Intervento presentato al convegno European Conference on Antennas Propagation tenutosi a Rome nel Apr. 10-15, 2011).
GPU-accelerated synthesis of echo generators
CAPOZZOLI, AMEDEO;CURCIO, CLAUDIO;LISENO, ANGELO
2011
Abstract
We deal with an approach to the design of array based, 2D echo generators. The radiating elements are located on non-uniform grids and the Quiet Zone (QZ) design specifications are enforced at non uniformly spaced sampling locations. The radiating element positions and QZ design specification matching points are determined by a singular values optimization process. In order to properly manage the computational burden, a proper parallel programming strategy is employed, in particular, by exploiting the potentialities recently offered by Graphics Processing Units (GPUs) through the Jacket Matlab toolbox. Numerical results assess the performance of the technique in terms of computational requirements and QZ field behavior.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.