[Getdp] Periodic Boundary Conditions
Francisco Jorge Santana Martín
fsantana at die.ulpgc.es
Mon Jun 20 12:37:47 CEST 2005
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Fecha:
Thu, 16 Jun 2005 12:01:18 +0100
De:
Francisco Jorge Santana MartÃn <fsantana at die.ulpgc.es>
Para:
getdp-announce at geuz.org
Asunto:
Answer_to_Constraint_.....
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Francisco Jorge Santana MartÃn wrote:
My name :Francisco Jorge Snatana Martin.
email: fsantana at die.ulpgc.es
Islas Canarias.
Dear Christophe Geuzaine:
Thanks very much for your quickly answer we want to say with "constraint of
binary type" this other "Periodic Boundary Conditions".
These are our files of test.
//file perio_Laplace.geo *********************************
Lc = 0.6 ;
Point(1) = {0.,0.,0.,Lc};
L = 0.045;
R = 0.01085;
Point(2) = {2*Pi,0.,0.,Lc};
Point(3) = {2*Pi,2*Pi,0.,Lc};
Point(4) = {0.,2*Pi,0.,Lc};
Line(1) = {1,2};
Line(2) = {2,3};
Line(3) = {3,4};
Line(4) = {4,1};
Line Loop(1) = {1,2,3,4};
Plane Surface(1) = {1};
/*These two lines have periodic boundary conditons*/
Physical Line(18) = {2};//Line_Right
Physical Line(17) = {4};//Line_Left
Physical Surface(1) = {1};//Domain_square
//End .geo ***********************************************
// file Laplace_periodic.pro *********************************
Group {
Line_Left=Region[17];//, Left and Right have periodic boundary condition
Line_Right=Region[18];//,
Domain_square=Region[1];
/* */
}
Function {
/* second member of Laplace equation "periodic"*/
f[Domain_square]=Sin[$X+Pi/4]*Cos[$Y+Pi/4];
}
Constraint {
{ Name periodic;Type Link ;//???????? here is our problem.
Case {
{ Region Line_Left ;}//??????????? here is our problem.
{ Region Line_Right; }//???????????? here is our problem.
}
}
}//cons
Include "periodic.pro"
PostOperation {
{ Name Map; NameOfPostProcessing Post_v;
Operation {
Print [ v, OnElementsOf Domain_square, File "Laplace_v.pos" ];
}
}
}
//End file Laplace_periodic.pro *********************************
//file periodic.pro
Group {
DefineGroup[Domain_square,Line_Left,Line_Right];
}
Function {
DefineFunction[ f];
}
Include "Jacobian_Lib.pro"
Include "Integration_Lib.pro"
FunctionSpace {
{ Name potencial; Type Form0;
BasisFunction {
{ Name vn; NameOfCoef vn; Function BF_Node;
Support Region [{Domain_square}]; Entity NodesOf[All ]; }
}
Constraint {
{ NameOfCoef vn; EntityType NodesOf;
NameOfConstraint periodic; }
}//Cons
}//name1
}//funtion space
Formulation {
{ Name Laplace_periodic; Type FemEquation;
Quantity {
{ Name v; Type Local; NameOfSpace potencial; }
}
Equation {
Galerkin { [ Dof{d v} , {d v} ]; In Region [{Domain_square}];
Jacobian Vol; Integration GradGrad; }
Galerkin { [ -f[] , { v} ]; In Region [{Domain_square}];
Jacobian Vol; Integration GradGrad; }
}
}
}
Resolution {
{ Name Laplace_Resol;
System {
{ Name Sys_Ele; NameOfFormulation Laplace_periodic; }
}
Operation {
Generate[Sys_Ele]; Solve[Sys_Ele]; SaveSolution[Sys_Ele];
}
}//name1
}//resolucion
PostProcessing {
{ Name Post_v; NameOfFormulation Laplace_periodic;
Quantity {
{ Name v;
Value {
Local { [ {v} ]; In Domain_square; Jacobian Vol; }
}
}
{ Name e;
Value {
Local { [ -{d v} ]; In Domain_square; Jacobian Vol; }
}
}
}
}
}
//End file periodic.pro
Thanks.