TY - GEN
T1 - Comprehensive multilayer substrate models for co-simulation of power and signal integrity
AU - Rimolo-Donadio, Renato
AU - Duan, Xiaomin
AU - Brüns, Heinz Dietrich
AU - Schuster, Christian
PY - 2009
Y1 - 2009
N2 - Physics-based via and trace models have been integrated into a general method to simulate multilayer board structures. In the past, our approach has been successfully applied to link simulation and has been validated against other numerical techniques and measurements. A notable improvement of the computation speed of over three orders of magnitude has been observed when compared to full-wave electromagnetic simulations. In this paper, the models are reviewed and it is shown that they can also be applied to simulate power distribution networks with arbitrary power/ground via and plane configurations. This approach is general enough to handle indistinctively power and signal nets and it is therefore suitable for co-simulation of both power and signal integrity domains in a comprehensive and efficient manner. Different configurations are studied in this paper, including also decoupling capacitors, and the simulation results are compared against full-wave simulations in terms of accuracy and efficiency.
AB - Physics-based via and trace models have been integrated into a general method to simulate multilayer board structures. In the past, our approach has been successfully applied to link simulation and has been validated against other numerical techniques and measurements. A notable improvement of the computation speed of over three orders of magnitude has been observed when compared to full-wave electromagnetic simulations. In this paper, the models are reviewed and it is shown that they can also be applied to simulate power distribution networks with arbitrary power/ground via and plane configurations. This approach is general enough to handle indistinctively power and signal nets and it is therefore suitable for co-simulation of both power and signal integrity domains in a comprehensive and efficient manner. Different configurations are studied in this paper, including also decoupling capacitors, and the simulation results are compared against full-wave simulations in terms of accuracy and efficiency.
KW - Interconnects
KW - Multilayer substrate
KW - Physics-based models
KW - Power integrity
KW - Signal integrity
KW - Via model
UR - http://www.scopus.com/inward/record.url?scp=84876916240&partnerID=8YFLogxK
M3 - Contribución a la conferencia
AN - SCOPUS:84876916240
SN - 0930815890
SN - 9780930815899
T3 - Proceedings - 2009 International Symposium on Microelectronics, IMAPS 2009
SP - 969
EP - 976
BT - Proceedings - 2009 International Symposium on Microelectronics, IMAPS 2009
T2 - 42nd International Symposium on Microelectronics, IMAPS 2009
Y2 - 1 November 2009 through 5 November 2009
ER -