讲座人:吴克利 教授 香港中文大学
时间:2016年12月26日 10:30
地点:海韵园物理机电航空大楼438室
报告简介:This talk will present a new physically derived micro-modeling circuit method for time-domain simulation of a large-scale high-speed and high-density circuit problem. The derivation of the micro-circuit model starts from the Mixed Potential Integral Equation (MPIE) of Maxwell equations, and is driven by a physically inspired equivalent circuit transformation. The derivation process inherently retains the essence of the original physical meaning in a lowpass sense. For time-domain simulation, the passivity of the derived circuit will be enforced by a new sufficient and necessary condition on the resistive, inductive and capacitive sub-circuits individually. Moreover, the derivation process does not involve any matrix operations and its computational overhead is dominated by outer products of a vector itself, which can be easily accelerated by the massive GPU acceleration technique.
讲座人简介: 吴克利博士,香港中文大学电子工程系教授,香港中文大学射频辐射研究实验室主任,中国空间技术研究院的客座教授。现任IEEE微波滤波器及无源器件专业委员会委员。在2006-2009年间任IEEE微波理论和技术会刊副主编。在多国国际顶级专业会议,包括国际微波年会(IMS)的技术委员会中担任委员。为表彰其在非平面微波滤波器和内嵌式射频无源电路领域的杰出贡献,于2011年被授予 IEEE Fellow。曾获得1998年度康姆迪公司的成就奖,并于2008及2012年两次获得亚太微波年会大奖。研究内容包括电磁场理论,微波无源器件及系统,微波滤波器的理论与实践,通讯中的多天线技术,微波多系统集成技术,信号完整性的电磁场分析,有源RFID室内定位技术及系统应用等。
