Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

With cplex, i want to solve a SAT problem several times and get different solutions by changing the directions (IloCplex.BranchDirection.Up | IloCplex.BranchDirection.Down) and priorities for the variables. However, I always get the same solution (several thousands exist).

I more or less do the following:

IloCplex solver = new IloCplex();
solver.addEq(...);
solver.addGe(...);
solver.addLe(...);

while (true) {
  Collections.shuffle(vars);

  for (IloIntVar var : vars) {
    solver.setDirection(variables.get(object), random.nextBoolean() ? IloCplex.BranchDirection.Up : IloCplex.BranchDirection.Down);
    solver.setPriority(variables.get(object), vars.indexOf(var));
  }

  solver.solve();

  for (IloIntVar var : vars) {
      value = solver.getValue(var);
  }
}

I want to get different (if feasible) values for each variable in each iteration. Someone sees where my fault is? I tried all solver.clear* methods to reset it, but this did not help.

share|improve this question

2 Answers 2

The branch priorities change which nodes get expanded on the branch-and-cut tree. While you might get different solutions by changing them, there is no guarantee. In fact, it's likely that the first solution found using heuristics at the root node and no branching occurs at all. In the case of a pure 0-1 problem like you have, you can do the following

  1. Solve for the first solution (x*)
  2. Let y = sum of x*[i]
  3. Add a constraint sum (2 x*[i] - 1) x[i] <= y
share|improve this answer
    
You suggested to apply a local branching constraint. Great idea. +1 –  JeanValjean Jun 14 '13 at 12:47

CPLEX also has a solution pool feature for accumulating multiple solutions during the MIP optimization. It has parameters to control the specifics, so you can instruct it to only accept solutions within a certain percentage of optimality. Since the underlying one tree algorithm for the solution pool needs only one or two branch and bound passes to accumulate the requested solutions, this may run faster than repeatedly optimizing and adding constraints to exclude the previously found solution. See the CPLEX documentation for the solution pool and populate procedure for more information.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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