Modeling the non-linear behavior of library cells for an accurate static noise analysis

Author

Forzan, Cristiano ; Pandini, Davide

Author_Institution

Central R&D, STMicroelectronics, Bologna, Italy

fYear

2005

fDate

7-11 March 2005

Firstpage

982

Abstract

In signal integrity analysis, the joint effect of propagated noise through library cells, and of the noise injected on a quiet net by neighboring switching nets through coupling capacitances, must be considered in order to accurately estimate the overall noise impact on design functionality and performances. In this work the impact of the cell non-linearity on the noise glitch waveform is analyzed in detail, and a new macromodel that allows to accurately and efficiently model the non-linear effects of the victim driver in noise analysis is presented. Experimental results demonstrate the effectiveness of our method, and confirm that existing noise analysis approaches based on linear superposition of the propagated and crosstalk-injected noise can be highly inaccurate, thus impairing the sign-off functional verification phase.

Keywords

capacitance; circuit CAD; crosstalk; electromagnetic coupling; integrated circuit design; integrated circuit interconnections; integrated circuit modelling; integrated circuit noise; cell nonlinearity; coupling capacitances; crosstalk-injected noise; design functionality; injected noise; library cells nonlinear behavior modeling; linear superposition; macromodel; noise glitch waveform; overall noise impact; propagated noise; quiet net; sign-off functional verification phase; signal integrity analysis; static noise analysis; switching nets; victim driver; Capacitance; Circuit noise; Crosstalk; Driver circuits; Libraries; Noise level; Performance analysis; Phase noise; Signal analysis; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Design, Automation and Test in Europe, 2005. Proceedings

ISSN

1530-1591

Print_ISBN

0-7695-2288-2

Type

conf

DOI

10.1109/DATE.2005.215

Filename

1395715