Janna/Long_Coup_dt6 | SuiteSparse Matrix Collection

3D coupled consolidation problem (geological formation)

Name	Long_Coup_dt6
Group	Janna
Matrix ID	2551
Num Rows	1,470,152
Num Cols	1,470,152
Nonzeros	84,422,970
Pattern Entries	87,088,992
Kind	Structural Problem
Symmetric	Yes
Date	2012
Author	C. Janna, M. Ferronato
Editor	T. Davis

Dulmage-Mendelsohn Permutation of Janna/Long_Coup_dt6

Force-Directed Graph Visualization of Janna/Long_Coup_dt6

Structural Rank	1,470,152
Structural Rank Full	true
Num Dmperm Blocks	39,045
Strongly Connect Components	39,045
Num Explicit Zeros	2,666,022
Pattern Symmetry	100%
Numeric Symmetry	100%
Cholesky Candidate	no
Positive Definite	no
Type	real

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Notes	Authors: Carlo Janna and Massimiliano Ferronato Symmetric Indefinite Matrix # equations: 1,470,152 # non-zeroes: 87,088,992 Problem description: Coupled consolidation problem The matrix Long_Coup is obtained from a 3D coupled consolidation problem of a geological formation discretized with tetrahedral Finite Elements. Due its complex geometry it was not possible to obtain a computational grid characterized by regularly shaped elements. The copuled consolidation problem gives rise to a matrix having 4 unknowns associated to each node: the first three are displacement unknowns, the fourth is a pressure. Coupled consolidation is a transient problem with the matrix ill-conditioning strongly depending on the time step size. We provide a relatively simple problem, "dt0" with a time step size of 10^0 seconds, and a more difficult one, "dt6" with a time step of 10^6 seconds. The two Long_Coup_* matrices are symmetric indefinite. Further information may be found in the following papers: 1) C. Janna, M. Ferronato, G. Gambolati. "Parallel inexact constraint preconditioning for ill-conditioned consolidation problems". Computational Geosciences, submitted. 2) M. Ferronato, L. Bergamaschi, G. Gambolati. "Performance and robustness of block constraint preconditioners in FE coupled consolidation problems". International Journal for Numerical Methods in Engineering, 81, pp. 381-402, 2010. 3) L. Bergamaschi, M. Ferronato, G. Gambolati. "Mixed constraint preconditioners for the iterative solution to FE coupled consolidation equations". Journal of Computational Physics, 227, pp. 9885-9897, 2008. 4) L. Bergamaschi, M. Ferronato, G. Gambolati. "Novel preconditioners for the iterative solution to FE-discretized coupled consolidation equations". Computer Methods in Applied Mechanics and Engineering, 196, pp. 2647-2656, 2007.

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MATLAB Rutherford Boeing Matrix Market

Notes

Authors: Carlo Janna and Massimiliano Ferronato                        
Symmetric Indefinite Matrix                                            
# equations:   1,470,152                                               
# non-zeroes: 87,088,992                                               
Problem description: Coupled consolidation problem                     
                                                                       
The matrix Long_Coup is obtained from a 3D coupled consolidation       
problem of a geological formation discretized with tetrahedral Finite  
Elements. Due its complex geometry it was not possible to obtain a     
computational grid characterized by regularly shaped elements.  The    
copuled consolidation problem gives rise to a matrix having 4 unknowns 
associated to each node: the first three are displacement unknowns, the
fourth is a pressure. Coupled consolidation is a transient problem with
the matrix ill-conditioning strongly depending on the time step size.  
We provide a relatively simple problem, "dt0" with  a time step size of
10^0 seconds, and a more difficult one, "dt6" with a time step of 10^6 
seconds.  The two Long_Coup_* matrices are symmetric indefinite.       
Further information may be found in the following papers:              
                                                                       
1) C. Janna, M. Ferronato, G. Gambolati. "Parallel inexact constraint  
preconditioning for ill-conditioned consolidation problems".           
Computational Geosciences, submitted.                                  
                                                                       
2) M. Ferronato, L. Bergamaschi, G. Gambolati. "Performance and        
robustness of block constraint preconditioners in FE coupled           
consolidation problems".  International Journal for Numerical Methods  
in Engineering, 81, pp. 381-402, 2010.                                 
                                                                       
3) L. Bergamaschi, M. Ferronato, G. Gambolati. "Mixed constraint       
preconditioners for the iterative solution to FE coupled consolidation 
equations". Journal of Computational Physics, 227, pp. 9885-9897, 2008.
                                                                       
4) L. Bergamaschi, M. Ferronato, G. Gambolati. "Novel preconditioners  
for the iterative solution to FE-discretized coupled consolidation     
equations". Computer Methods in Applied Mechanics and Engineering, 196,
pp. 2647-2656, 2007.