To analyze wave interaction with a large scale body in the frequency domain, a precorrected Fast Fourier Transform (pFFT) method has been proposed for infinite depth problems with the deep water Green function, as i...To analyze wave interaction with a large scale body in the frequency domain, a precorrected Fast Fourier Transform (pFFT) method has been proposed for infinite depth problems with the deep water Green function, as it can form a matrix with Tocplitz and Hankel properties. In this paper, a method is proposed to decompose the finite depth Green function into two terms, which can form matrices with the Toeplitz and a Hankel properties respectively. Then, a pFFT method for finite depth problems is developed. Based on the pFFT method, a numerical code pFFT-HOBEM is developed with the discretization of high order elements. The model is validated, and examinations on the computing efficiency and memory requirement of the new method have also been carried out. It shows that the new method has the same advantages as that for infinite depth.展开更多
三维集成电路通过高密度金属互连线实现芯片在三维空间上互连,其电路参数的快速提取是保证信号完整性良好设计的关键技术之一.文中基于体积分混合势积分方程(mixed potential integral equation,MPIE)方法,结合多层平面介质格林函数与...三维集成电路通过高密度金属互连线实现芯片在三维空间上互连,其电路参数的快速提取是保证信号完整性良好设计的关键技术之一.文中基于体积分混合势积分方程(mixed potential integral equation,MPIE)方法,结合多层平面介质格林函数与预纠正快速傅里叶变换(pre-corrected fast fourier transformation,pFFT)方法,通过对互连线内趋肤电流准确建模,实现对互连线结构S参数的快速准确提取.通过对典型互连线结构的仿真表明,本文求解器得到的结果与商业软件HFSS结果在网格剖分考虑趋肤效应时,其精度相当,计算效率可提高50%以上.所以本文方法在三维集成电路互连线参数快速提取方面具有一定的应用前景.展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.51490672 and 51379032)
文摘To analyze wave interaction with a large scale body in the frequency domain, a precorrected Fast Fourier Transform (pFFT) method has been proposed for infinite depth problems with the deep water Green function, as it can form a matrix with Tocplitz and Hankel properties. In this paper, a method is proposed to decompose the finite depth Green function into two terms, which can form matrices with the Toeplitz and a Hankel properties respectively. Then, a pFFT method for finite depth problems is developed. Based on the pFFT method, a numerical code pFFT-HOBEM is developed with the discretization of high order elements. The model is validated, and examinations on the computing efficiency and memory requirement of the new method have also been carried out. It shows that the new method has the same advantages as that for infinite depth.
文摘三维集成电路通过高密度金属互连线实现芯片在三维空间上互连,其电路参数的快速提取是保证信号完整性良好设计的关键技术之一.文中基于体积分混合势积分方程(mixed potential integral equation,MPIE)方法,结合多层平面介质格林函数与预纠正快速傅里叶变换(pre-corrected fast fourier transformation,pFFT)方法,通过对互连线内趋肤电流准确建模,实现对互连线结构S参数的快速准确提取.通过对典型互连线结构的仿真表明,本文求解器得到的结果与商业软件HFSS结果在网格剖分考虑趋肤效应时,其精度相当,计算效率可提高50%以上.所以本文方法在三维集成电路互连线参数快速提取方面具有一定的应用前景.