Before you start wrestling with animated plots and the like, I suggest you re-write the lines which generate your dataset. You have written what appears to be a C program using Mathematica, and have chosen what is probably the slowest approach to creating a list of data.

I don't have Mathematica on this machine so haven't tested the following, but a statement along the lines of:

```
tabl = Table[{k + ndiag*j, l + ndiag*j}, {l,0,ndiag-1},{k,0,ndiag-1},{j,rank*m,(rank+1)*m},{rank,0,grpSize-1}]
```

will run much faster (I mean, much faster) than your nest of loops. You'll find the output from the `Table`

execution needs a bit of `Flatten`

-ing. In passing I'd also note that it is more natural in Mathematica to use 1 as the index base, than to use 0.

I believe that you are correct to identify your use of `Append`

as the culprit in making your code slow. This is a topic that has been covered several times on SO, I think that Mathematica is reallocating memory every time you `Append`

to an existing list

I think that the `Table`

command will run quickly enough that your desire to have the plot generated step-by-step will evaporate. But if it does not you could look at `Animate`

or one of its cousins. If you are not careful, though, you might find that you take memory for the list of data points at each stage, so instead of a Table having N items, you find yourself with a series of Tables with sizes `1, 2, 3, ..., N`

which would not be much of an optimisation.

I think that your idea of adding points to a plot one at a time in an effort to save memory is misconceived -- where (and how) will the information for the plot be stored until you display it ? Have a look at the `FullForm`

of a simple graphic.

If you are still concerned about memory usage then either `Remove`

the variable you create after your are finished with it, or simply wrap `ListPlot[]`

around the `Table`

statement, in which case the table won't have a name so will be garbage collected when Mathematica gets round to it. I'm not convinced that Mathematica is spectacularly good at garbage collection, but I rarely worry about it either.