I am new to SCIP and have read through some of the example problems and documentation, but am still unsure how to formulate the following problem for the SCIP solver:

argmax(w) sum(sign(Aw) == sign(b))

where A is a nxm matrix, w is a mx1 vector, and b is a nx1 vector. The data type is floats/real numbers, and it is a constraint-free problem.

Values for A and b are also contained row-wise in a .txt file. How can I import that?

Overall - I am new to SCIP and have no idea how to start creating variables (especially the objective function value parameter), importing data, formulate the objective function... It's a bit of a stretch for me to ask this question, but your help is appreciated!

  • 1
    Make sure to get the basics of those optimization problems first before implementing. This one line has tons of potential to be *very annoying*(!): equality-comparison and the undifferentiable sign-function. The usual approach is to transform the constraint-free sign/abs problem to a constrained sign/abs-free problem. But i would not do that blindly (without having a clear idea of how my approach is expected to work for my problem). Additionally: asking on how to import data while also asking about modelling is often a sign for bad preparation / very early approaches. Invest some time. – sascha Oct 28 at 10:27
  • As @sascha already pointed out: You seem to be quite early in the modelling/development process. I recommend to start with PySCIPOpt (github.com/SCIP-Interfaces/PySCIPOpt), because the first steps are way easier in Python than in C/C++ - especially when you're also parsing unformatted .txt files. – mattmilten Oct 28 at 17:28
  • Also don't fix yourself on using a sign() function. sign(b) seems to be fixed already and for each entry of Aw, use a binary variable to indicate whether its sign is positive or negative. Then the sum() just becomes a simple sum over binary variables (or their negation, depending on sign(w)). – stefan Oct 28 at 19:36
  • 1
    I have never seen an objective like this. Looks somewhat familiar to a classification problem. What is the background for this? – Erwin Kalvelagen Oct 31 at 23:41

This should work:

enter image description here

where beta(i) = sign(b(i)). The implication can be implemented using indicator constraints. This way we don't need big-M's.

Most likely the >= 0 constraint should be >= 0.0001 (otherwise we can set all w(j)=0).

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.

Not the answer you're looking for? Browse other questions tagged or ask your own question.