dimensional particle simulation 维粒子模拟
d particle simulation 二维粒子模拟方法
fully particle simulation 全粒子模拟
particle simulation method 粒子模拟方法
direct particle simulation 直接颗粒模拟
pseudo-particle simulation 拟颗粒模型
particle simulation methods 粒子模拟方法
discrete particle simulation 离散颗粒模拟
lagrangian particle simulation 拉格朗日粒子模拟
Presented in this dissertation are theoretical analysis, particle simulation and experimental studies on the physical mechanism of the MILO. A series of reasonable and valuable results are obtained from this work.
本文从解析推导,粒子模拟以及实验 研究三个方面对磁绝缘线振荡器的基本物理过程进行了研究,得到了合理而有价值的 结果。
参考来源 - 磁绝缘线振荡器的研究The floating-point compute ability of GPU has achieved hundreds to thousands of GFlops. The use of GPU in large scale particle simulations will effectively increase the speed and decrease the cost of particle simulation.
GPU拥有几百GFlops甚至上TFlops的浮点计算能力,将GPU应用于粒子模拟,可有效提高大规模粒子模拟的速度,降低计算成本。
参考来源 - 基于GPU的LARED·2,447,543篇论文数据,部分数据来源于NoteExpress
The basic method of the particle simulation is described briefly.
简述了粒子模拟的基本方法。
Results of particle simulation indicate electron heating and its character.
粒子模拟结果清晰地反映了电子的加热过程和加热特征。
The collisionless magnetic reconnection is studied using two dimensional full particle simulation.
采用二维全粒子模拟方法研究了无碰撞磁场重联。
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