I have a 3 dimensional grid, in which for each point of the grid I want to calculate a time dependent function G(t) for a large number of time steps and then summing the G function for each grid point. Using 4 for loops the execution time is becoming very large, so I am trying to avoid this using parfor.
a part of my code:
for i=1:50
for j=1:50
for k=1:25
x_in=i*dx;
y_in=j*dy;
z_in=k*dz;
%dx,dy, dz are some fixed values
r=sqrt((xx-x_in).^2+(yy-y_in).^2+(zz-z_in).^2);
%xx,yy,zz are 50x50x25 matrices generated from meshgrid
% r is a 3d matrix which produced from a 3 for-loop, for all the points of grid
parfor q=1:100
t=0.5*q;
G(q)=((a*p)/(t.^1.5)).*(exp(-r.^2/(4*a*t)));
% a,p are some fixed values
end
GG(i,j,k)=sum(G(:));
end
end
end
When I am using parfor
the execution time becomes larger, and I am not sure why this is happening. Maybe I am not so familiar with sliced and indexed variables on a parfor loop.
My pc processor has 8 threads and ram memory ddr3 8GB
Any help will be great.
Thanks