A modeling approach for addressing power supply switching noise related failures of integrated circuits

Author

Tirumurti, Chandra ; Kundu, Sandip ; Sur-Kolay, Susmita ; Chang, Yi-Shing

Volume

2

fYear

2004

fDate

16-20 Feb. 2004

Firstpage

1078

Abstract

Power density of high-end microprocessors has been increasing by approximately 80% per technology generation, while the voltage is scaling by a factor of 0.8. This leads to 225% increase in current per unit area in successive generation of technologies. The cost of maintaining the same IR drop becomes too high. This leads to compromise in power delivery and power grid becomes a performance limiter. Traditional performance related test techniques with transition and path delay fault models focus on testing the logic but not the power delivery. In this paper we view power grid as performance limiter and develop a fault model to address the problem of vector generation for delay faults arising out of power delivery problems. A fault extraction methodology applied to a microprocessor design block is explained.

Keywords

circuit noise; fault simulation; integrated circuits; logic testing; microprocessor chips; power supply circuits; IR drop; delay faults; fault extraction; integrated circuits; logic testing; microprocessor design; path delay fault models; power delivery; power density; power grid; power supply switching noise; vector generation; Circuit faults; Integrated circuit modeling; Integrated circuit noise; Integrated circuit technology; Logic testing; Microprocessors; Power generation; Power grids; Power supplies; Switching circuits;

fLanguage

English

Publisher

ieee

Conference_Titel

Design, Automation and Test in Europe Conference and Exhibition, 2004. Proceedings

ISSN

1530-1591

Print_ISBN

0-7695-2085-5

Type

conf

DOI

10.1109/DATE.2004.1269036

Filename

1269036