论文信息 - An adaptive parallel flow for power distribution network simulation using discrete Fourier transform

An adaptive parallel flow for power distribution network simulation using discrete Fourier transform

A frequency-time-domain co-simulation flow using discrete Fourier transform (DFT) is introduced in this paper to analyze large power distribution networks (PDN's). The flow not only allows designers to gain an insight to the frequency-domain characteristics of the PDN but also to obtain accurate time-domain voltage responses according to different load current profiles. An adaptive method achieves accurate results within even shorter time compared to the basic DFT flow. In addition, parallel processing is incorporated which leads to a significant reduction in simulation time. Error bounds of the DFT flow are derived to assure the accuracy of simulation results. Experimental results show that the proposed flow has a relative error of 0.093% and a speedup of 10× compared to SPICE transient simulation with a single processor.

Xiang Hu | Chung-Kuan Cheng | Peng Du | Amirali Shayan Arani | Wenbo Zhao

[1] Rajeev Murgai,et al. Fast power network analysis with multiple clock domains , 2007, 2007 25th International Conference on Computer Design.

[2] William H. Press,et al. Numerical Recipes in FORTRAN - The Art of Scientific Computing, 2nd Edition , 1987 .

[3] William L. Briggs,et al. The DFT : An Owner's Manual for the Discrete Fourier Transform , 1987 .

[4] Chung-Kuan Cheng,et al. 3D power distribution network co-design for nanoscale stacked silicon ICs , 2008, 2008 IEEE-EPEP Electrical Performance of Electronic Packaging.

[5] Tom Dhaene,et al. Broadband macromodelling of passive components using orthonormal vector fitting , 2005 .

[6] William H. Press,et al. Numerical recipes in C , 2002 .