How to access the current iteration number in the program where we supply the non-linear equations,F =0 and the Jacobian for FSOLVE?

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Rahul Gulati
Rahul Gulati am 15 Sep. 2020
Kommentiert: Ameer Hamza am 15 Sep. 2020
For example, in the sample code for fsolve:
fun = @root2d;
x0 = [0,0];
x = fsolve(fun,x0)
where :
function F = root2d(x)
current_iteration= ?
F(1) = exp(-exp(-(x(1)+x(2)))) - x(2)*(1+x(1)^2);
F(2) = x(1)*cos(x(2)) + x(2)*sin(x(1)) - 0.5;
In the code root2d, if my non linear problem formulation depends on the current iteration, how can i access the present iteration number?
I understand that once all the iterations have been completed, we can get the total number of iterations for convergence using 'output paramter' but this is not what i want.
  2 Kommentare
Ameer Hamza
Ameer Hamza am 15 Sep. 2020
Can you show an example of where this might be relevant? The problem definition is usually independent of the algorithm. Different algorithms will take a different number of iterations to reach the same optimal solution. How can you use the iteration number in the equations in any useful way?
Rahul Gulati
Rahul Gulati am 15 Sep. 2020
Bearbeitet: Rahul Gulati am 15 Sep. 2020
I am solving a set of non linear equations for a finite element code. At each increment, for the first iteration, i need to add some terms to the non linear equations (this will apply 'displacement boundary condition'). This value will be zero for all the following iterations (except for the first iteration). To be able to add a term only for the first iteration, i want to access the current iteration.

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Ameer Hamza
Ameer Hamza am 15 Sep. 2020
Bearbeitet: Ameer Hamza am 15 Sep. 2020
Something like this will work
global iter_number % global variable for a quick example, i recommend creating a handle class object
iter_number = 0;
fun = @root2d;
x0 = [0,0];
opts = optimoptions('fsolve', 'OutputFcn', @outputFcn);
x = fsolve(fun,x0, opts);
root2d(x)
function F = root2d(x)
global iter_number
current_iteration = iter_number
F(1) = exp(-exp(-(x(1)+x(2)))) - x(2)*(1+x(1)^2);
F(2) = x(1)*cos(x(2)) + x(2)*sin(x(1)) - 0.5;
end
function stop = outputFcn(x, optimValues, state)
global iter_number
iter_number = optimValues.iteration;
stop = 0;
end

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