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I am using MATLAB's lsqnonlin function, and I am attempting to set a user-defined Jacboian pattern via the option JacobPattern. I set a preference for the trust-region-reflective algorithm to be used, and the output from lsqnonlin indicates that this was indeed the algorithm used by the solver (required for the use of the JacobPattern option).

The problem I am finding is that if my JacobPattern is too sparse (e.g. just a few rows of ones in a 500x500 Jacobian), it is being ignored by the solver and the full Jacobian is being computed instead.

This behaviour is not documented; can anyone shed any further light on it? I would like to be able to force the solver to use my JacobPattern no matter how absurdly sparse it is, or how shallow a gradient is found with it.


Update:

I have done some more experiments, and it appears the Jacobian is only recomputed if there are any all-zero rows in the Jacobian pattern. Any number of all-zero columns are ok, as long as at there is at least one '1' in each row. Although this helps to avoid the problem, the question still remains --- why does the solver require each dependent variable to have an associated gradient? In any case, I would expect the ignoring of a user-defined option to be at least worthy of a warning...

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How sparse does your matrix have to be before matlab tries to recalculate? –  Isaac Jul 26 '12 at 19:50
    
Ok thanks, your question has shed some more light on the issue - I will update the question above accordingly. –  Bill Cheatham Jul 26 '12 at 20:08
    
Could you give the full function call, or better yet a minimal working example? –  Dennis Jaheruddin Oct 24 '12 at 12:16
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1 Answer

My guess is the following:

If you take a look at what the jacobian actually means, you'll see that all-zero rows mean that the corresponding function (part of the vector function defined) is independent of any variable. It is thus completely pointless adding it to the optimization.

As for purposefully handing a wrong Jacobian to the algorithm, why would you want to do that?

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