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I have around 700 elements and want to create combinations of 20. The total number of combinations possible are [700 C 20] ~ 2.5e+38 combinations. This large dataset belongs to the specifications of a graph. This is a graph optimization problem, so, I would even like to apply the constraints to this set of combinations.

I'm using R! for this purpose due to it's rich range of packages and large dataset handling capabilities. I'm using the 'combinat' package. The problem though, is, when I try to compute this, I'm getting the following error:

Error in matrix(r, nrow = len.r, ncol = count) : 
  invalid 'ncol' value (too large or NA)
In addition: Warning message:
In combn(theDataSet, 20, myFunction) : NAs introduced by coercion

Any solutions, alternate packages or algorithms to this problem is appreciated. Perhaps any method of handling the result?

And since this is graph optimization problem, any packages or algorithms related to this is very much appreciated too.

Or if any other tools that are available for solving such a problem, please tell me.

I'm an electronics major, so I don't know much of the advanced algorithms for graph optimizations and I had to take the combinatorial approach. If there are more intelligent approaches to this problem, I would love to know.

Help, please.


Since some of you have been asking for the actual problem, I'll just give an abstract of it, since posting my actual homework problems on the internet for line-to-line answers is not honourable.


There are about 700 nodes, each of which have to recharged everyday by robots. The robots (which are placed inside a dome) carry a source which has about 5000 units of energy and the each node requires different energy levels (Average requirement of all the nodes is around 250, but it ranges from 120 units to 500 units for some of the nodes). The distance from the nodes to the dome and the distance from a node to every other is given (in a matrix form of dimension 701x701).There are constraints for how much each robot can travel in a day. Design an algorithm and write a program (in any commercially available specifications or packages) to efficiently calculate the number of robots required and the total distance travelled by all the robots.

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closed as not a real question by Sacha Epskamp, flodel, mnel, Dason, sgibb Nov 22 '12 at 7:14

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

This is an extremely large number of combinations. Even if it took only 1 millisecond to process one of the combinations, you would still need 7.9e27 years to process the whole dataset. You might wish to consider looking for alternative approaches. – Sven Hohenstein Nov 18 '12 at 15:02
I would suggest to go to the library and do some research before writing code. – Roland Nov 18 '12 at 15:07
I think the best way we could help you is identify what graph theory problem you are looking at, so you can then do your own research. For that, we'll need a little more detail about the problem. – flodel Nov 18 '12 at 15:55
I hope the requirement is only for a good, not an optimal, solution and that the course taught about some related package. It appears to me that the Traveling Salesman Problem is reducible to this problem. If a single robot with big enough charge is sufficient, there is a path visiting all the nodes whose total distance is no greater than that robot's maximum daily distance. – Patricia Shanahan Nov 19 '12 at 15:12

You cannot generate all those combinations. That does not necessarily mean your overall problem is unsolvable. There are several approaches:

  1. Replace programming with theoretical analysis. Maybe you do not need to run the job at all.
  2. Look at what you want to do with the result of the combinations, Can you use its characteristics to limit the set of combinations you need, and only generate the useful ones?
  3. If you can stop your next stage of processing when you find something, try to write an algorithm that can process a stream of data, and stop when it gets a hit. Feed combinations to it as they are generated.

Anything more specific would depend on knowing what you intend to do with the results of the combinations process.

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The problem abstract has been posted above. As for the theoretical analysis of the graph, I'm not computer science student. Perhaps you can tell me where I can learn the theory to solve the posted problem and give me an effective graph algorithm (a link to the material, maybe or a similar problem which has been solved), I'd be very gratefulThe problem abstract has been posted above. – d34df3tu5 Nov 19 '12 at 13:02
That looks to me like a non-trivial problem in algorithm design, and not one that would be posed cold to a non-CS student. Perhaps there is a clue in whatever has been covered in the course over the last few weeks? You may be being asked to apply something you have recently been taught about. – Patricia Shanahan Nov 19 '12 at 15:05

Perhaps you do not need so many combinations. I'd use a representative sample of this volume and/or divide it and define a number or index for the result of the analysis performed on each set. This would then give me points to plot, each point essentially representing a set of N combinations. I'd need to know more about what these combinations represent to be able to suggest other alternatives.

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Hey, thanks for the fast reply. The actual problem abstract has been posted above. The parameter values provided to me in the matrix form are quite diverse to sample the problem. – d34df3tu5 Nov 19 '12 at 13:05

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