[Getdp] Nonlinear BH
janvrot at infolink.com.br
janvrot at infolink.com.br
Sun May 5 04:18:30 CEST 2002
Ok, All
Substituting "good" scaled data for InterpolationLinear the ILU message
is gone, convergence is within 27 calculations, but results are really
bad. Here is the data:
mu_steel_couples = {
0.000, 0.000,
159.155, 0.0012566,
238.733, 0.0021782,
557.043, 0.0017952,
1591.550, 0.0008922,
3183.100, 0.0005026,
7077.800, 0.0002549,
29076.400, 0.0000735304,
79577.500, 0.0000286513
};
Substituting 0.0012 for all the lines in the second column things go
right, but then we are going linear, not the case for my application
So, still don't know how to treat nonlinear. I supose Resolution has to
be interactive, but I did not understand the reference in the manual.
Perhaps I'll have to review some theory or the foundations of getdp. Is
there available any material on that?
Janvrot
janvrot at infolink.com.br wrote:
>
> Hi all
>
> After Patrick kindly help me,� I have a functioning Magnetostatic scalar
> potential calculation. Displayed fields are as expected, but with field
> levels in the problem I must introduce a nonlinear BH curve.�
>
> I'm trying a mu[Steel] = InterpolationLinear[$1]{...} function as below,
> but I get the message bellow and I can't figure out its meaning (real
> beginner :-)
>
> P r o c e s s i n g . . .
> Operation : Generate[A]
> Solver : Loading parameter file 'solver.par'
> Resources : cpu 9.350000 s / mem 0 kb
> Operation : Solve[A]
> Solver : No scaling of system of equations
> Solver : RCMK algebraic renumbering
> Solver : N: 30195, NZ: 355081, BW max/avg: 24/11, SW max: 30112
> Resources : cpu 9.770000 s / mem 0 kb
> Solver : ILUTP (Float, fill-in = 20)
> Error : Zero row encountered in ILU
>
> BTW, I'm using the solver.par from the getdp demo.
>
> A new Galerkin was introduced, is it ok? And for Resolution, is it ok?
>
> Thanks in advance for any help.
> Janvrot
>
> The .pro file follows:
>
> /*
> Magnetostatic problem (scalar magnetic potential), based on t5.pro from
> FAQ
> */
> mm = 1e-3 ;
>
> Include "def-par.inc"; // defect parameters
> Include "env-par.inc"; // environment size parameters
>
> Group {
> Steel = Region[ 1 ];
> Air = Region[ 3 ];
> Domain = Region[ {Steel, Air} ];
> SurfaceA = Region[ 10 ]; //
> SurfaceC = Region[ 12 ]; // simetry plane
> }
>
> Function {
> mu0 = 4.e-7 * Pi ;
> murSteel = 1000;
> // mu[Steel] = murSteel * mu0;
> // First column is h(Oe), second is b(Gauss), maybe some scale factor is
> needed
> mu[Steel] = InterpolationLinear[$1]{
> 0.0000000e+000, 0.0000000e+000,
> 2.6389378e+000, 1.1785000e+003,
> 5.2778757e+000, 6.1701000e+003,
> 1.5833627e+001, 1.3628200e+004,
> 2.6389378e+001, 1.5237100e+004,
> 3.6945130e+001, 1.5977000e+004,
> 4.7500881e+001, 1.6442400e+004,
> 5.6799995e+001, 1.6757300e+004,
> 6.7858401e+001, 1.7065500e+004,
> 7.6152206e+001, 1.7268000e+004,
> 8.7210612e+001, 1.7501600e+004,
> 9.5504417e+001, 1.7653200e+004,
> 9.8269018e+001, 1.7678100e+004,
> 2.5118105e+002, 1.9147300e+004,
> 4.2216395e+002, 1.9889300e+004,
> 6.0797162e+002, 2.0252200e+004,
> 8.0031523e+002, 2.0448000e+004,
> 9.9663627e+002, 2.0542100e+004,
> 1.1937805e+003, 2.0615000e+004,
> 1.2926748e+003, 2.0643300e+004,
> 1.3917012e+003, 2.0668200e+004,
> 1.4909347e+003, 2.0687900e+004,
> 1.6894244e+003, 2.0726500e+004,
> 1.8887185e+003, 2.0744500e+004,
> 2.0875119e+003, 2.0775400e+004,
> 2.2869106e+003, 2.0790700e+004,
> 2.4863847e+003, 2.0804100e+004,
> 2.6861077e+003, 2.0811300e+004,
> 2.8855818e+003, 2.0824700e+004,
> 3.0852284e+003, 2.0833800e+004,
> 3.2851930e+003, 2.0834600e+004,
> 3.4850332e+003, 2.0838800e+004,
> 3.6847654e+003, 2.0845500e+004,
> 3.8846298e+003, 2.0849100e+004,
> 4.2846034e+003, 2.0849200e+004,
> 6.2860950e+003, 2.0849302e+004
> };
>
> mu[Air] = mu0;
> }
>
> Constraint {
>
> { Name phi ;
> Case {
> { Region SurfaceA ; Value 0. ; }
> { Region SurfaceC ; Value 10. ; }
> }
> }
>
> }
> Jacobian {
> { Name MyJac;
> Case {
> { Region All; Jacobian Vol; }
> }
> }
> }
>
> Integration {
> { Name MyInt;
> Case {
> { Type Gauss;
> Case {
> { GeoElement Tetrahedron; NumberOfPoints 5; }
> }
> }
> }
> }
> }
>
> FunctionSpace {
> { Name Hgrad_phi; Type Form0;
> BasisFunction {
> { Name sn; NameOfCoef phin; Function BF_Node;
> Support Domain; Entity NodesOf[ All ]; }
> // uncomment the following for 2nd order interpolation:
> //{ Name sn2; NameOfCoef phin2; Function BF_Node_2E;
> // Support Domain; Entity EdgesOf[ All ]; }
> }
> Constraint {
> { NameOfCoef phin ; EntityType NodesOf ; NameOfConstraint phi ; }
> }
> }
> }
>
> Formulation {
> { Name MagSta_phi; Type FemEquation;
> Quantity {
> { Name phi; Type Local; NameOfSpace Hgrad_phi; }
> }
> Equation {
> Galerkin { [ - mu[] * Dof{d phi} , {d phi} ];
> In Air; Jacobian MyJac; Integration MyInt; }
> Galerkin { [ - mu[Norm[{d phi}]] * Dof{d phi} , {d phi} ];
> In Steel; Jacobian MyJac; Integration MyInt; }
> }
> }
> }
>
> Resolution {
> { Name MagSta_phi;
> System {
> { Name A; NameOfFormulation MagSta_phi; }
> }
> Operation {
> Generate[A]; Solve[A]; SaveSolution[A];
> }
> }
> }
>
> PostProcessing {
> { Name MagSta_phi; NameOfFormulation MagSta_phi;
> Quantity {
> { Name phi; Value { Local { [ {phi} ]; In Domain; Jacobian MyJac;}
> } }
> { Name h; Value { Local { [ {d phi} ]; In Domain; Jacobian
> MyJac;} } }
> { Name b; Value
> {
> Local { [ - mu[] * {d phi} ]; In Domain; Jacobian MyJac;
> }
> }
> }
> }
> }
> }
>
> PostOperation {
> { Name phi; NameOfPostProcessing MagSta_phi;
> Operation {
> // Valores basicos
> Print[ phi, OnElementsOf Domain, File "phi.pos"] ;
> Print[ b, OnElementsOf Domain, File "b_phi.pos", Depth 0 ] ;
> Print[ h, OnElementsOf Domain, File "h_phi.pos", Depth 0 ] ;
> // etc ...
> }
> }
> }
>
> --
> Janvrot IVM
> janvrot at infolink.com.br
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--
Janvrot IVM
janvrot at infolink.com.br