Lee/fem_filter
FEM bandpass microwave filter, 500MHz. Center for Comp. Electromag., UIUC
| Name |
fem_filter |
| Group |
Lee |
| Matrix ID |
1878 |
|
Num Rows
|
74,062 |
|
Num Cols
|
74,062 |
|
Nonzeros
|
1,731,206 |
|
Pattern Entries
|
1,731,206 |
|
Kind
|
Electromagnetics Problem |
|
Symmetric
|
No |
|
Date
|
2008 |
|
Author
|
S.-H. Lee |
|
Editor
|
T. Davis |
| Structural Rank |
74,062 |
| Structural Rank Full |
true |
|
Num Dmperm Blocks
|
1 |
|
Strongly Connect Components
|
1 |
|
Num Explicit Zeros
|
0 |
|
Pattern Symmetry
|
100% |
|
Numeric Symmetry
|
61.3% |
|
Cholesky Candidate
|
no |
|
Positive Definite
|
no |
|
Type
|
complex |
| Download |
MATLAB
Rutherford Boeing
Matrix Market
|
| Notes |
From the Univ of Illinois at Urbana-Champaign, Center for Computational
Electromagnetics (development and application of the finite element
method for analyzing antennas, high-frequency circuits, high-speed
circuits, and so on). The governing equations are Maxwell's equations.
The matrix results from the finite-element discretization of a bandpass
microwave filter at 500 MHz. The first-order vector element is employed.
The absorbing boundary condition is applied on the outer boundary of the
structure for emulating the open space. The port boundary condition is
applied on each port of the circuit for the truncating the computational
domain and exciting the circuit. Due to these boundary conditions, the
finite-element system matrix is complex.
|
