| 1 |
clear |
| 2 |
clear path |
| 3 |
|
| 4 |
global Nx Ny Nz |
| 5 |
global lat long dz dm mdep |
| 6 |
global delt_su su_its t_su delt |
| 7 |
global descriptor this_path |
| 8 |
global f deltaf Q beta r_expt r_heat H |
| 9 |
global time rots it |
| 10 |
global g Cp rho_bar alpha |
| 11 |
global u v t w |
| 12 |
global iterations |
| 13 |
|
| 14 |
|
| 15 |
param_file_name = ... |
| 16 |
input(' Please enter the name of the m-file with the parameters for this run : ','s') ; |
| 17 |
feval(param_file_name) ; |
| 18 |
path = this_path |
| 19 |
cmdstr=['cd ' path ]; |
| 20 |
eval(cmdstr); |
| 21 |
path=pwd |
| 22 |
|
| 23 |
XCenter = Nx/2 ; |
| 24 |
YCenter = Ny/2 ; |
| 25 |
R2 = 2*r_heat/dm ; |
| 26 |
% create large circular mask |
| 27 |
mask=ones(Nx,Ny); |
| 28 |
for i=1:Nx |
| 29 |
for j=1:Ny |
| 30 |
DispX=XCenter-i; |
| 31 |
DispY=YCenter-j; |
| 32 |
if ( DispX^2 + DispY^2 >= R2^2 ) |
| 33 |
mask(i,j)=0; |
| 34 |
end |
| 35 |
end |
| 36 |
end |
| 37 |
|
| 38 |
figure;hold on |
| 39 |
%set(gca,'XLim',[10000 35000]) |
| 40 |
set(gca,'YLim',[0.0 1.0]) |
| 41 |
sizeit=size(iterations); |
| 42 |
meanmudgeu=zeros(sizeit(1),1); |
| 43 |
|
| 44 |
for i=1:sizeit(1) |
| 45 |
mufilename=(['TWcorrectionu.' iterations((i),1:10) ]); |
| 46 |
mudgeu=rdmeta(mufilename,'b'); |
| 47 |
meanmudgeu(i,:)=sum(sum(mudgeu.*mask))/sum(sum(mask)); |
| 48 |
plot(eval(iterations((i),1:10)),meanmudgeu(i,:),'o');drawnow |
| 49 |
end |
| 50 |
|
| 51 |
title(descriptor) |
| 52 |
xlabel('timestep') |
| 53 |
ylabel('mean mudgeu') |
| 54 |
grid |
| 55 |
|
| 56 |
%save meanmudgeu meanmudgeu |
| 57 |
%save iterations iterations |
| 58 |
|
| 59 |
|
| 60 |
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