I have 100,000 points that I would like to cluster using the OPTICS algorithm in ELKI. I have a upper triangular distance matrix of about 5 billion entries for this point set. In the format that ELKI wants the matrix, it will take about 100GB in memory. I am wondering does ELKI handle that sort of data load? Can any one confirm if you have made this work before?

I frequently use ELKI with 100k points, up to 10 million. However, for this to be fast you should use indexes. For obvious reasons, any dense matrix based approach will scale at best In the binary format, with float precision, the ELKI matrix format should be around Either way, I recommend to not compute distance matrixes at all in the first place. Because if you decide to go from 100k to 1 million, the raw matrix would grow to 2 TB, and when you go to 10 million it will be 200 TB. If you want double precision, double that. If you are using distance matrixes, your method will be at best I use indexes for everything. For kNN or radius bound approaches (for OPTICS, use the epsion parameter to make indexes effective! Choose a low epsilon!) you can precompute these queries once, if you are going to need them repeatedly. On a data set I frequently use, with 75k instances and 27 dimensions, the file storing the precomputed 101 nearest neighbors + ties, with double precision, is 81 MB (note: this can be seen as a sparse similarity matrix). By using an index for precomputing this cache, it takes just a few minutes to compute; and then I can ran most kNN based algorithms such as LOF on this 75k dataset in 108 ms (+262 ms for loading the kNN cache + parsing the raw input data 2364 ms, for a total runtime of 3 seconds; dominated by parsing double values). 

