This software package contains a Barnes-Hut implementation of the t-SNE algorithm. The implementation is described in this paper.
On Linux or OS X, cd to the project dir and compile the source using make. It will generate an executable in <project-dir>/out/bh_tsne.
On Windows using Visual C++, do the following in your command line:
- Find the
vcvars64.batfile in your Visual C++ installation directory. This file may be namedvcvars64.bator something similar. For example:
// Visual Studio 12
"C:\Program Files (x86)\Microsoft Visual Studio 12.0\VC\bin\amd64\vcvars64.bat"
// Visual Studio 2013 Express:
C:\VisualStudioExp2013\VC\bin\x86_amd64\vcvarsx86_amd64.bat
-
From
cmd.exe, go to the directory containing that .bat file and run it. -
Go to
bhtsnedirectory and run:
nmake -f Makefile.win all
The executable will be called windows\bh_tsne.exe.
The code comes with wrappers for Matlab and Python. These wrappers write your data to a file called data.dat, run the bh_tsne binary, and read the result file result.dat that the binary produces. There are also external wrappers available for Torch, R, and Julia. Writing your own wrapper should be straightforward; please refer to one of the existing wrappers for the format of the data and result files.
Demonstration of usage in Matlab:
filename = websave('mnist_train.mat', 'https://github.com/awni/cs224n-pa4/blob/master/Simple_tSNE/mnist_train.mat?raw=true');
load(filename);
numDims = 2; pcaDims = 50; perplexity = 50; theta = .5; alg = 'svd';
map = fast_tsne(digits', numDims, pcaDims, perplexity, theta, alg);
gscatter(map(:,1), map(:,2), labels');