I'm trying to write a simple generic parallel code for minimizing a function in MATLAB. The idea is very simple, essentially:
parfor k = 1:N (...find a good solution xcurrent with cost fcurrent ... ) % keep best current value fmin = min(fmin,fxcurrent) end
This works fine, because fmin is a reduction variable, and thus I can use this construction to update the current best value.
However, I couldn't find a nice elegant way of keeping (or storing) the best current solution ("xcurrent").
How do I keep track of the best solution found so far?
In other words, if the current value is strictly smaller than fmin, how can I save xcurrent (subject to the constraints that parallel loops impose in MATLAB)?
[Of course, the serial version is trivial, just prepend
if fxcurrent < fmin; xbest = xcurrent; end;
but this does not work on a parfor loop.]
A few approaches that come to mind:
I could just store all solutions and costs (using sliced variables), but this is hugely memory inefficient (the number of iterations N is very large, and the solutions themselves are very big).
Similarly, I could use a (set or matrix) reduction variable and do:
solutionset = [solutionset,xcurrent]
but this is almost as bad in terms of memory requirement.
- I could also save xcurrent to disk every time the solution is improved.
I tried to look around for a simpler solution, but nothing was very useful.
The question seems to be well-defined (so it's not like in other problems, where the output could depend on iteration order), but I couldn't find an elegant way of doing this.
Apologies in advance if I'm missing something obvious, and thanks a lot in advance!