DocumentCode
2405569
Title
Substrate noise analysis with compact digital noise injection and substrate models
Author
Nagata, Makoto ; Murasaka, Yoshitaka ; Nishimori, Youichi ; Morie, Takashi ; Iwata, Atsushi
Author_Institution
Integrated Syst. Lab., Hiroshima Univ., Japan
fYear
2002
fDate
2002
Firstpage
71
Lastpage
76
Abstract
This paper presents a substrate noise analysis methodology that employs chip-level substrate modeling based on F-matrix computation and digital substrate-noise injection modeling with a time-series divided parasitic capacitance model for time-domain power-supply current estimation. System-level simulation models generated according to the methodology provide reliable substrate noise waveforms. Simulated waveforms for practical digital circuits on a 0.6-μm CMOS 4.5-mm square chip are consistent with measurements with 100-ps 100-μV resolution. Peak-to-peak substrate noise amplitudes for reduced-substrate noise as well as conventional designs show roughly an error of 10% compared with the measurements
Keywords
CMOS digital integrated circuits; circuit simulation; crosstalk; integrated circuit modelling; integrated circuit noise; 0.6 micron; 4.5 mm; CMOS digital circuits; F-matrix computation; chip-level substrate modeling; compact digital noise injection model; digital substrate-noise injection modeling; peak-to-peak substrate noise amplitudes; substrate models; substrate noise analysis; substrate noise waveforms; system-level simulation models; time-domain power-supply current estimation; time-series divided parasitic capacitance model; Circuit noise; Circuit simulation; Computational modeling; Noise level; Noise reduction; Parasitic capacitance; Power system modeling; Semiconductor device measurement; Semiconductor device modeling; Time series analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Design Automation Conference, 2002. Proceedings of ASP-DAC 2002. 7th Asia and South Pacific and the 15th International Conference on VLSI Design. Proceedings.
Conference_Location
Bangalore
Print_ISBN
0-7695-1441-3
Type
conf
DOI
10.1109/ASPDAC.2002.994888
Filename
994888
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