61472e7cb3
* Update _training.md Fix broken link on backpropagation * Add agreement add spacy contributor agreement
2.5 KiB
spaCy's tagger, parser, text categorizer and many other components are powered by statistical models. Every "decision" these components make – for example, which part-of-speech tag to assign, or whether a word is a named entity – is a prediction based on the model's current weight values. The weight values are estimated based on examples the model has seen during training. To train a model, you first need training data – examples of text, and the labels you want the model to predict. This could be a part-of-speech tag, a named entity or any other information.
Training is an iterative process in which the model's predictions are compared against the reference annotations in order to estimate the gradient of the loss. The gradient of the loss is then used to calculate the gradient of the weights through backpropagation. The gradients indicate how the weight values should be changed so that the model's predictions become more similar to the reference labels over time.
- Training data: Examples and their annotations.
- Text: The input text the model should predict a label for.
- Label: The label the model should predict.
- Gradient: The direction and rate of change for a numeric value. Minimising the gradient of the weights should result in predictions that are closer to the reference labels on the training data.
When training a model, we don't just want it to memorize our examples – we want it to come up with a theory that can be generalized across unseen data. After all, we don't just want the model to learn that this one instance of "Amazon" right here is a company – we want it to learn that "Amazon", in contexts like this, is most likely a company. That's why the training data should always be representative of the data we want to process. A model trained on Wikipedia, where sentences in the first person are extremely rare, will likely perform badly on Twitter. Similarly, a model trained on romantic novels will likely perform badly on legal text.
This also means that in order to know how the model is performing, and whether it's learning the right things, you don't only need training data – you'll also need evaluation data. If you only test the model with the data it was trained on, you'll have no idea how well it's generalizing. If you want to train a model from scratch, you usually need at least a few hundred examples for both training and evaluation.