Title :
Efficient large-scale power grid analysis based on preconditioned Krylov-subspace iterative methods
Author :
Chen, Tsung-Hao ; Chen, Charlie Chung-Ping
Author_Institution :
Dept. of Electr. & Comput. Eng., Wisconsin Univ., Madison, WI, USA
Abstract :
In this paper, we propose preconditioned Krylov-subspace iterative methods to perform efficient DC and transient simulations for large-scale linear circuits with an emphasis on power delivery circuits. We also prove that a circuit with inductors can be simplified from MNA to NA format, and the matrix becomes an s.p.d. matrix. This property makes it suitable for the conjugate gradient with incomplete Cholesky decomposition as the preconditioner, which is faster than other direct and iterative methods. Extensive experimental results on large-scale industrial power grid circuits show that our method is over 200 times faster for DC analysis and around 10 times faster for transient simulation compared to SPICE3. Furthermore, our algorithm reduces over 75% of memory usage than SPICE3 while the accuracy is not compromised.
Keywords :
VLSI; circuit simulation; conjugate gradient methods; integrated circuit design; iterative methods; power supply circuits; transient analysis; DC simulation; NA format; VLSI; conjugate gradient; incomplete Cholesky decomposition; large-scale linear circuits; large-scale power grid analysis; power delivery circuits; preconditioned Krylov-subspace iterative methods; transient simulation; Analytical models; Circuit simulation; Inductors; Iterative algorithms; Iterative methods; Large-scale systems; Linear circuits; Matrix decomposition; Power grids; Transient analysis;
Conference_Titel :
Design Automation Conference, 2001. Proceedings
Print_ISBN :
1-58113-297-2
DOI :
10.1109/DAC.2001.156202
