DocumentCode
1156866
Title
Loop-based interconnect modeling and optimization approach for multigigahertz clock network design
Author
Huang, Xuejue ; Restle, Phillip ; Bucelot, Thomas ; Cao, Yu ; King, Tsu-Jae ; Hu, Chenming
Author_Institution
Rambus Inc., Los Altos, CA, USA
Volume
38
Issue
3
fYear
2003
fDate
3/1/2003 12:00:00 AM
Firstpage
457
Lastpage
463
Abstract
A highly efficient loop-based interconnect modeling methodology is proposed for multigigahertz clock network design and optimization. Closed-form loop resistance and inductance models are proposed for fully shielded global clock interconnect structures, which capture high-frequency effects including inductance and proximity effects. The models are validated through comparisons with electromagnetic simulations and measured data taken from a Power4 chip. This modeling methodology greatly improves the clock interconnect simulation efficiency and enables fast physical design exploration. Examples of interconnect performance optimization are demonstrated and design guidelines are proposed.
Keywords
RLC circuits; circuit optimisation; circuit simulation; clocks; inductance; integrated circuit design; integrated circuit interconnections; integrated circuit modelling; timing; Power4 chip; clock distribution; clock interconnect simulation efficiency; closed-form loop resistance models; design guidelines; electromagnetic simulations; fast physical design exploration; fully shielded global clock interconnect structures; high-frequency effects; inductance models; interconnect performance optimization; loop-based interconnect modeling; multigigahertz clock network design; optimization; proximity effects; single effective loop RLC chain; timing analysis; Clocks; Design optimization; Electrical resistance measurement; Electromagnetic measurements; Electromagnetic modeling; Electromagnetic shielding; Guidelines; Inductance; Proximity effect; Semiconductor device measurement;
fLanguage
English
Journal_Title
Solid-State Circuits, IEEE Journal of
Publisher
ieee
ISSN
0018-9200
Type
jour
DOI
10.1109/JSSC.2002.808313
Filename
1183853
Link To Document