Running time of variables – AIMMS

How to find problems in calculation of variables?

AIMMS is extremely powerful, but sometimes it can be very tricky.

AIMMS uses sparse matrix multiplication methods. It makes a lot of sense, since the matrices in linear or integer programming are usually giant, but sparse. But sparse arithmetics is difficult to understand and there are sometimes troubles caused by this.

Real life problem example

I had a model, whose behavior was very very strange.

It was taking a lot of time, about 10 minutes, in the preprocessing stage. After the long preprocessing, the actual running of the solver was fast, one minute in average.

I checked the formulation dozen of times, but there was no evident mistake. 

AIMMS profiler

In order to investigate where the problem was, I used the AIMMS profiler tool.

The profiler can be found in Tools -> Diagnostic Tools -> Profiler.

Profiler menu
After one more running of the model, I could find the results in Profiler -> Results Overview.


Overview of the profiler results (just illustrative)
In this case, it showed clearly that one specific variable – “vNroCac”  – was taking too long to be processed. It had clearly a running time several times greater than other variables. I’ve found the offender!

This specific variable had a structure like this: it calculated a lot of things, using other variables as inputs, and some of these variables also used other variables and parameters. I guess the sparse multiplication was taking too long to be processed, due to these several subcalculations…

I simply eliminated this variable and reformulated the model.

Now,  the preprocessing time was fine!



The profiler is a great tool for investigating running time calculation problems in Aimms.


Arnaldo Gunzi

Feb. 2016




How to use all cores of the computer in Aimms

Running combinatorial optimization problems in Aimms is, most of times, a hard task (if the problem is easy, you don’t need to pay a lot of money in the Aimms license – use COIN-OR’s CBC, Excel or something else).

But, when you run Aimms in default mode, it uses only one core of the computer. It sees to be a waste of resources, since your company probably bought a mighty computer to run Aimms.

One frequent question is: how to use all cores of the computer?



The way to answer the question is simple. Just set the LP method to “Barrier”, and set the parallel configurations as following instructions:

In Settings -> Project options -> (your solver) -> General -> LP Method := change it to barrier
Other configuration:


In Settings -> Project options -> (your solver) -> Parallel -> Global thread limit := set with the number of cores of your computer
In Settings -> Project options -> (your solver) -> Parallel -> Parallel mode := set with “opportunistic”

And voilá, now the computer is using all cores of the computer.

In this example, the CPU is in 100% – using the 4 cores of the computer

A word of caution here: the solver must allow this barrier parallel configuration, otherwise there’s no deal.

How to know which solver  is running? Just check it in Settings -> Solver configuration




What the hell is barrier?

In default mode, Aimms use the famous Simplex method (or similar variant). The Simplex begin with a feasible solution, then improves it by searching the corners of the Simplex polyhedron.

Illustration of the feasible region of a problem
The Barrier method is an Interior Point method. It begins in a point, then improves it following the direction of most gain. Since there are lots of ways to follow this interior path, it makes sense to do this in parallel.

Barrier method


This textbook of Robert Vanderbei is the source of these two images, and also an excellent introduction to the barrier method.



Does this parallelization  really works?

It can not be said surely for every case that it will work, since it depends on the model.

I can say that in every model I tested, for my work, it improved slightly the solution. The objective function was 2% – 5% better using the parallel barrier method (to the same limited solution time).





The use of barrier parallel method can improve the solution, but not much. Anyway, it is an interesting feature to be explored.


Arnaldo Gunzi

Feb 2016