著者
Ran Dong Daisuke Shigeta Yoshihisa Fujita Soichiro Ikuno
出版者
Japan Society for Simulation Technology
雑誌
日本シミュレーション学会英文誌 (ISSN:21885303)
巻号頁・発行日
vol.9, no.1, pp.65-77, 2022 (Released:2022-02-08)
参考文献数
18

Photonic crystals are widely employed in industry fields due to their bandgap property, which can confine and propagate electromagnetic waves inside the structure as a photonic waveguide. As this property can be adopted to propagate distinct frequency waves by changing the photonic structure, photonic crystals are also applied in frequency demultiplexer design. The finite-difference time-domain (FDTD) method is commonly applied to simulate electromagnetic wave propagations in photonic crystals, helping determine the desired bandgaps for frequency demultiplexers. Meanwhile, the multivariate empirical mode decomposition (MEMD) nonlinearly decomposes multivariate signals in the instantaneous frequency domain. Therefore, MEMD can verify and visualize the designed frequency demultiplexer made of photonic crystals by considering simulation results as a multi-channel signal. This research aims to propose a method to design and evaluate frequency demultiplexers using FDTD and MEMD. In this paper, photonic crystal bandgaps are adopted to design a frequency demultiplexer to separate two different frequency electromagnetic waves. Then, MEMD is employed to the result of frequency demultiplexer propagation simulated by FDTD. Our results reveal that the frequency demultiplexer made of photonic crystals can be designed using the bandgap properties, and its simulation results by FDTD method can be verified and visualized in the instantaneous frequency domain using MEMD.
著者
Soichiro IKUNO Norihisa FUJITA Yuki KAWAGUCHI Taku ITOH Susumu NAKATA Kota WATANABE Hiroyuki NAKAMURA
出版者
The Japan Society of Plasma Science and Nuclear Fusion Research
雑誌
Plasma and Fusion Research (ISSN:18806821)
巻号頁・発行日
vol.6, pp.2401069, 2011-07-01 (Released:2012-01-23)
参考文献数
9
被引用文献数
1 1

The variable preconditioned (VP) Krylov subspace method on multi Graphics Processing Unit (GPU) is numerically investigated. Besides, the linear system obtained by finite element method with an edge element is adopted for the problem. The results of computations show that VP conjugate gradient method on multi GPU demonstrated significant achievement than that of CPU. Especially, VP conjugate gradient method on multi GPU is 4.35 times faster than that of CPU. However, transmission rate between the PC using Gigabit Ethernet is the bottleneck of the performance.