Title :
GPU acceleration of an FDTD solver for MMIC passive element analysis
Author :
Morita, Nobutomo
Author_Institution :
M Wave Solver Lab., Kamagaya, Japan
Abstract :
GPU acceleration algorithm for an FDTD solver of analyzing MMIC passive element circuit characteristics is presented. Lines having the input or output ports are assumed to be microstrip lines. The analysis region is surrounded by a CFSPML absorbing boundary region. Not only the fields in the absorbing boundaries, and voltages and currents at the ports, but also field distributions in a plane are computed by using the GPU device, thus the speedup rate compared with GPU-less computation is more than a factor of 10 under the circumstances of one Tesla 2075 GPU and two Intel Xeon(R) E5620 CPU (total 8 cores).
Keywords :
MMIC; finite difference time-domain analysis; graphics processing units; microstrip lines; CFSPML absorbing boundary region; FDTD solver; GPU acceleration algorithm; Intel Xeon(R) E5620 CPU; MMIC passive element circuit characteristics; Tesla 2075 GPU; field distributions; microstrip lines; speedup rate; Acceleration; Arrays; Conductors; Finite difference methods; Graphics processing units; Ports (Computers); Time-domain analysis;
Conference_Titel :
Electromagnetic Theory (EMTS), Proceedings of 2013 URSI International Symposium on
Conference_Location :
Hiroshima
Print_ISBN :
978-1-4673-4939-0
