I have a constrained optimization problem that I attempt to solve in Matlab.

  • I find however that when I run the solver with Matlab 2016b the results are different than when I run it on a different computer with Matlab 2017b.

  • I find it weird that using the non-stochastic optimizer sqp the solver does not converge to the same values. In fact, 2016b does not reach a feasible point whereas 2017b finds a local minimum.

  • I have confirmed with 100% certainty that the inputs to the function below are exact the same.

  • I have also tried to fix the seed (to Twister).

Where do these differences come from? How can I check what it is different in 2016b vs 2017? I did not find anything on fmincon in the release notes.

Or is the difference coming from something different? What can I do to check and understand this?

Here is the core function:

function customOptimization(ymu, Sigma, upperTarget, maxWeight)
% ymu: 1 x M vector
% Sigma: M x M matrix
% upperTarget: double constant
% maxWeight: double constant

options = optimoptions(...
    'MaxFunctionEvaluations',1e+5,'MaxIterations',1e+5, ...
    'OptimalityTolerance',1e-12,'ConstraintTolerance',1e-12, ...
    'StepTolerance',1e-6, ...
    'Display', 'off');

% Problem definition
fnhandle                 = @(x)in_objectfun(x, ymu);
nonlcon                  = @(x)in_nonlconstr(x, Sigma);
[A, b, Aeq, beq, lb, ub] =     in_linconstr(ymu);
x0                       =     in_startvalue(ymu, Sigma);

% Optimization & scaling
    [weights,fval,exitflag,output] = fmincon(fnhandle, x0, A, b, Aeq, beq, lb, ub, nonlcon, options); 

% -------------------------------------------------------------------------

% objective function
    function  f = in_objectfun(w, imu)

        f = abs(imu) * log(abs(w))';
        f = -f;


% linear constraints
    function [A, b, Aeq, beq, lb, ub] = in_linconstr(imu)

        temp = ones(0,nbAssets);
        temp(imu >= 0) = -1;
        temp(imu < 0) = 1;

        % (b) and (c)
        % Ax <= b
        A = diag(temp);
        b = zeros(nbAssets,1);

        % other
        Aeq = [];
        beq = [];
        lb = [];
        ub = [];


% nonlinear constraints
    function [c,ceq] = in_nonlconstr(w, S)

        % (a)
        c(1) = sqrt(w*S*w') - upperTarget;
        c(2) = max(abs(w))/sum(abs(w)) - maxWeight;

        % (d)
        ceq = [];


% starting values
    function x0 = in_startvalue(imu)

        x0 = imu/2;


  • 2
    You haven't set all the options inside optimoptions. Default values are set by matlab for the options not specified in optimoptions. Default values may vary from version to version. – Rijul Sudhir Mar 14 at 12:50
  • 2
    You can find the default values for 2017 here in.mathworks.com/help/optim/ug/fmincon.html#busog7r-options – Rijul Sudhir Mar 14 at 12:52
  • 2
    Compare the values marked as (default) in both version. – Rijul Sudhir Mar 14 at 12:55
  • 2
    I noted abs() in the model. That is non-differentiable and violates the assumptions of the sqp method. – Erwin Kalvelagen Mar 14 at 13:06
  • 2
    Any book on NLP will do. All these methods require smooth functions (continuous differentiable). So we typically reformulate abs. Also the sqrt can be removed. Proper formulation of NLP problems is quite important. Anyway, this is not related to you question. – Erwin Kalvelagen Mar 14 at 14:13

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Browse other questions tagged or ask your own question.