Power grid reduction based on algebraic multigrid principles

Author

Su, Haihua ; Acar, Emrah ; Nassif, Sani R.

Author_Institution

IBM Austin Res. Lab., TX, USA

fYear

2003

fDate

2-6 June 2003

Firstpage

109

Lastpage

112

Abstract

With the scaling of technology, power grid noise is becoming increasingly significant for circuit performance. A typical power grid circuit contains millions of linear elements, making noise analysis and verification challenging in terms of both run time and memory. We propose a power grid reduction scheme based on algebraic multigrid principles, in which the coarser-level grid and the restriction operators are constructed automatically from the circuit matrices. This method is suitable for large-scale power grid transient and AC analysis. Experimental results show an order of magnitude speed up over flat analysis in addition to practical tradeoffs for accuracy, CPU time and memory usage.

Keywords

circuit analysis computing; differential equations; digital integrated circuits; integrated circuit noise; iterative methods; power integrated circuits; transient analysis; AC analysis; algebraic multigrid principles; circuit performance; noise analysis; noise verification; power grid noise; power grid reduction; transient analysis; Algorithm design and analysis; Circuit noise; Error correction; Frequency; Interpolation; Multigrid methods; Permission; Power grids; Smoothing methods; Transient analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference, 2003. Proceedings

Print_ISBN

1-58113-688-9

Type

conf

DOI

10.1109/DAC.2003.1218840

Filename

1218840