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The simulated studies showing the effect of DC bias lines on an aperture coupled reconfigurable pixelated patch antenna for CLAS applications is presented. The simulations show significant deterioration in S11 and gain for all operating modes when copper bias wires are introduced. A solution utilizing very high sheet resistance bias lines in place of copper traces is proposed.
This paper documents a performance analysis of using CUDA in MATLAB to simulate the magnetic field generated by current running through a wire using the Biot-Savart law. It was found that the number of threads executing in a CUDA kernel varies the execution time linearly and the number of threads per block should be set to a power of 2 to optimize performance during runtime.
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