# Visualizing representations with t-SNE [t-SNE](http://lvdmaaten.github.io/tsne/) is a dimensionality reduction technique that can be used to visualize the 128-dimensional features OpenFace produces. The following shows the visualization of the three people in the training and testing dataset with the most images. **Training** ![](https://raw.githubusercontent.com/cmusatyalab/openface/master/images/train-tsne.png) **Testing** ![](https://raw.githubusercontent.com/cmusatyalab/openface/master/images/val-tsne.png) These can be generated with the following commands from the root `openface` directory. ## 1. Create raw image directory. Create a directory for a subset of raw images that you want to visualize with TSNE. Make images from different people are in different subdirectories. The names of the labels or images do not matter, and each person can have a different amount of images. The images should be formatted as `jpg` or `png` and have a lowercase extension. ``` $ tree data/mydataset-subset/raw person-1 ├── image-1.jpg ├── image-2.png ... └── image-p.png ... person-m ├── image-1.png ├── image-2.jpg ... └── image-q.png ``` ## 2. Preprocess the raw images Change `8` to however many separate processes you want to run: `for N in {1..8}; do ./util/align-dlib.py align outerEyesAndNose --size 96 & done`. ## 3. Generate Representations `./batch-represent/main.lua -outDir -data ` creates `reps.csv` and `labels.csv` in ``. ## 4. Generate TSNE visualization Generate the t-SNE visualization with `./util/tsne.py --names ... `, where `name i` corresponds to label `i` from the left-most column in `labels.csv`. This creates `tsne.pdf` in ``. # Visualizing layer outputs Visualizing the output feature maps of each layer is sometimes helpful to understand what features the network has learned to extract. With faces, the locations of the eyes, nose, and mouth should play an important role. [demos/vis-outputs.lua](https://github.com/cmusatyalab/openface/blob/master/demos/vis-outputs.lua) outputs the feature maps from an aligned image. The following shows the first 39 filters of the first convolutional layer on two images of John Lennon. ![](https://raw.githubusercontent.com/cmusatyalab/openface/master/images/nn4.v1.conv1.lennon-1.png) ![](https://raw.githubusercontent.com/cmusatyalab/openface/master/images/nn4.v1.conv1.lennon-2.png)