DocumentCode
2807894
Title
Block partitioned Gauss-Seidel PEEC solver accelerated by QR-based coupling matrix compression techniques
Author
Ruehli, Albert ; Gope, Dipanjan ; Jandhyala, Vikram
Author_Institution
IBM Res. Div., Yorktown Heights, NY, USA
fYear
2004
fDate
25-27 Oct. 2004
Firstpage
325
Lastpage
328
Abstract
Electromagnetic (EM) integral equation solvers based on the partial element equivalent circuit (PEEC) approach have proven to be well suited for modeling combined circuit and EM problems. The solution of the full-wave electromagnetic part is transformed to the circuit domain and general well-known circuit solver techniques are applied. However owing to the mutual couplings in the PEEC formulation, the MNA matrix is not sparse as in the case of general lumped circuits. This gives rise to a time and memory bottleneck. A Gauss-Seidel relaxation (GSR) solver is presented as an appropriate alternative to SPICE sparse LU solvers, for the PEEC class of problems in the frequency domain. Circuit based block partitioning schemes similar to the ones used in waveform relaxation methods with known convergence properties are used to insure fast convergence. Furthermore, circuit coupling thinning schemes based on QR compression techniques are used to accelerate the inter block updates and also intra block solutions.
Keywords
SPICE; electromagnetic coupling; equivalent circuits; integral equations; integrated circuit modelling; iterative methods; matrix algebra; Gauss-Seidel relaxation solver; LU solvers; MNA matrix; QR based coupling matrix compression; SPICE; circuit based block partitioning method; circuit coupling thinning method; circuit modeling; convergence properties; electromagnetic integral equation solvers; frequency domain analysis; lumped circuits; mutual couplings; partial element equivalent circuit solver; waveform relaxation methods; Acceleration; Coupling circuits; Electromagnetic modeling; Equivalent circuits; Frequency domain analysis; Gaussian processes; Integral equations; Mutual coupling; SPICE; Sparse matrices;
fLanguage
English
Publisher
ieee
Conference_Titel
Electrical Performance of Electronic Packaging, 2004. IEEE 13th Topical Meeting on
Print_ISBN
0-7803-8667-1
Type
conf
DOI
10.1109/EPEP.2004.1407624
Filename
1407624
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