GPU-accelerated 3D time-domain simulation of vacuum electron devices

机译：真空电子器件的GPU加速3D时域模拟

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We present results of 3D time-domain simulations of vacuum electron devices performed on high-performance GPU hardware using a new simulation code, NEPTUNE. Electromagnetic field evolution using two techniques is compared. First a GPU implementation of the finite-difference time-domain (FDTD) method is shown to give a 20x reduction in execution time compared to an equivalent CPU code. Second, we demonstrate an implicit, complex-envelope ADI-FDTD algorithm on the GPU, achieving a further 5x reduction in execution time to give a combined rf simulation performance gain over 100x compared to conventional CPU FDTD solvers. A particle beam interaction model also running on the GPU is under development with the goal to achieve self-consistent 3D large-signal simulation.

机译：我们使用新的仿真代码，海王星使用新的仿真代码，在高性能GPU硬件上进行真空电子设备的3D时域模拟结果。使用两种技术进行电磁场演化。首先，与等效CPU代码相比，示出了有限差分时间域（FDTD）方法的GPU实现，以便在执行时间中减少20倍。其次，我们在GPU上展示了一种隐式，复杂的包络ADI-FDTD算法，实现了执行时间的进一步减少5倍，与传统的CPU FDTD求解器相比，提供了超过100倍的组合RF仿真性能增益。在GPU上运行的粒子束交互模型正在开发中，目标是实现自我一致的3D大信号仿真。

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《IEEE International Vacuum Electronics Conference》|2011年||共2页
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Cooke Simon J.; Vlasov Alexander N.; Levush Baruch; Chernyavskiy Igor A.; Antonsen Thomas M.;
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中图分类 TN1-53;
关键词
ADI-FDTD; particle-beam; slow-wave;

机译：ADI-FDTD;粒子梁;慢波;

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2. Determining mode excitations of vacuum electronics devices via three-dimensional simulations using the SOS code [J] . Warren G. IEEE Transactions on Electron Devices . 1988,第11期

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3. Time-Domain Numerical Simulation of Electronic Circuits and Surface Acoustic Wave Devices Using Their Admittance Parameters [J] . Octavio Guerra-Pulido Jaime, Roberto Perez-Alcazar Pablo IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2019,第3期

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4. GPU-accelerated 3D time-domain simulation of vacuum electron devices [C] . Cooke Simon J., Vlasov Alexander N., Levush Baruch, 2011 IEEE International Vacuum Electronics Conference . 2011

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GPU-accelerated 3D time-domain simulation of vacuum electron devices

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