## go-tsne

A Go implementation of t-Distributed Stochastic Neighbor Embedding (t-SNE), a prize-winning technique for dimensionality reduction particularly well suited for visualizing high-dimensional datasets.

### Usage

Import this library:

` import "github.com/danaugrs/go-tsne/tsne"`

Create the TSNE object:

` t := tsne.NewTSNE(2, 300, 100, 300, true)`

The parameters are

- Number of output dimensions
- Perplexity
- Learning rate
- Max number of iterations
- Verbosity

There are two ways to start the t-SNE embedding optimization. The regular way is to provide an `n`

by `d`

matrix where each row is a datapoint and each column is a dimension:

` Y := t.EmbedData(X, nil)`

The alternative is to provide a distance matrix directly:

` Y := t.EmbedDistances(D, nil)`

In either case, the returned matrix `Y`

will contain the final embedding.

For more fine-grained control, a step function can be provided in either case:

```
Y := t.EmbedData(X, func(iter int, divergence float64, embedding mat.Matrix) bool {
fmt.Printf("Iteration %d: divergence is %v\n", iter, divergence)
return false
})
```

The step function has access to the iteration, the current divergence, and the embedding optimized so far. You can return `true`

to halt the optimization.

### Examples

Two examples are provided - `mnist2d`

and `mnist3d`

. They both use the same data - a subset of MNIST with 2500 handwritten digits. `mnist2d`

generates plots throughout the optimization process, and `mnist3d`

shows the optimization happening in real-time, in 3D. `mnist3d`

depends on G3N. To run an example, `cd`

to the example's directory and `go run`

it, e.g:

```
cd examples/mnist2d
go run mnist2d
```

### Support

I hope you enjoy using and learning from go-tsne as much as I enjoyed writing it.

If you come across any issues, please report them.