Henrik Sönnerlind
COMSOL Employee
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Posted:
4 years ago
2020年8月11日 GMT-4 17:35
If you are looking at the noneliminated stiffness matrix, this is expected, but not if you are looking at the eliminated version. What type pf physics and boundary conditions are involved?
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Henrik Sönnerlind
COMSOL
If you are looking at the noneliminated stiffness matrix, this is expected, but not if you are looking at the eliminated version. What type pf physics and boundary conditions are involved?
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Posted:
4 years ago
2020年8月11日 GMT-4 21:03
Hi Henrik,
Thank you for the reply. I tried looking at both the eliminated and full stiffness matrices and both give the same result.
I am using a General Form PDE that is the same physics as the MFH module to calculate the magnetic field of a superconductor. The boundary condition used is a Dirichlet condition to set the magnetic field at the domain boundary.
Cheers,
Alex
Hi Henrik,
Thank you for the reply. I tried looking at both the eliminated and full stiffness matrices and both give the same result.
I am using a General Form PDE that is the same physics as the MFH module to calculate the magnetic field of a superconductor. The boundary condition used is a Dirichlet condition to set the magnetic field at the domain boundary.
Cheers,
Alex
Henrik Sönnerlind
COMSOL Employee
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Posted:
4 years ago
2020年8月12日 GMT-4 05:38
Then it difficult to guess. With sufficient Dirichlet conditions, the eliminated matrix should be nonsingular. What are the sizes of the two matrices?
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Henrik Sönnerlind
COMSOL
Then it difficult to guess. With sufficient Dirichlet conditions, the eliminated matrix should be nonsingular. What are the sizes of the two matrices?
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Posted:
4 years ago
2020年8月24日 GMT-4 17:21
Hello,
It turns out that the stiffness matrix is singular in my case since we are taking the curl of the test functions in the weak formulation (not sure why this makes the matrix singular, but I read it in a few research papers). Therefore, you need to calculate the condition number of the addition of the stiffness matrix and the damping matrix in order to consider the time-dependence of the weak formulation.
Cheers,
Alex
Hello,
It turns out that the stiffness matrix is singular in my case since we are taking the curl of the test functions in the weak formulation (not sure why this makes the matrix singular, but I read it in a few research papers). Therefore, you need to calculate the condition number of the addition of the stiffness matrix and the damping matrix in order to consider the time-dependence of the weak formulation.
Cheers,
Alex