I'm currently working on a project concerning segmentation of geographical regions based on the plants that grow in each, over multiple significant layers (that is to say, each segmentation layer has a meaning that is unique wrt the other layers)

In doing so, we're using logistic regression to go from a list of regions, with the segment they belong to in each layer, and which plants they contain, to a probability of a plant growing in each combination of segments. At the moment, we are using SPSS, linked to a C# implementation of the segmentation.

So far, so good. The problem is, SPSS is slow as molasses on a cold day. For the full set (2500 plants and 565 regions), a single run would take about half a month. That's time we don't have, so for now we're using abbreviated data sets, but even that takes several hours.

We've looked into other libraries with logistic regression (specifically Accord.NET and Extreme Optimization), but neither has categorical logistic regression.

At this point I should probably specify what I mean by categorical logistic regression. Given that each row in the data set we feed the statistics engine has a variable for each layer, and one for the plant we're interested in at the moment, the value of the layer variables are considered categories. 0 is not better or worse than 1, it's simply different. What we want out of the statistics engine is a value for each category of each layer variable (as well as an intercept, of course), so in a setup with a layer with 3 segments and one with 2 segments, we'd get 5 values and the intercept.

I should note that we've experimented with dummy or indicator variables both in Accord.NET (where it had to be done outside of the library) and Extreme Optimization (which had some in-library support for it), but this did not produce the results necessary.

**TL;DR**

So, long story short, does anyone know of a good solution for categorical logistic regression in C#? This can be a class library, or simply an interface to plug into an external statistics engine, as long as it's stable and reasonably fast.