mirror of https://github.com/explosion/spaCy.git
93 lines
5.3 KiB
Markdown
93 lines
5.3 KiB
Markdown
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---
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title: Layers and Model Architectures
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teaser: Power spaCy components with custom neural networks
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menu:
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- ['Type Signatures', 'type-sigs']
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- ['Defining Sublayers', 'sublayers']
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- ['PyTorch & TensorFlow', 'frameworks']
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- ['Trainable Components', 'components']
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---
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A **model architecture** is a function that wires up a
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[Thinc `Model`](https://thinc.ai/docs/api-model) instance, which you can then
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use in a component or as a layer of a larger network. You can use Thinc as a
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thin wrapper around frameworks such as PyTorch, TensorFlow or MXNet, or you can
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implement your logic in Thinc directly. spaCy's built-in components will never
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construct their `Model` instances themselves, so you won't have to subclass the
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component to change its model architecture. You can just **update the config**
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so that it refers to a different registered function. Once the component has
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been created, its model instance has already been assigned, so you cannot change
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its model architecture. The architecture is like a recipe for the network, and
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you can't change the recipe once the dish has already been prepared. You have to
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make a new one.
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## Type signatures {#type-sigs}
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The Thinc `Model` class is a **generic type** that can specify its input and
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output types. Python uses a square-bracket notation for this, so the type
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~~Model[List, Dict]~~ says that each batch of inputs to the model will be a
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list, and the outputs will be a dictionary. Both `typing.List` and `typing.Dict`
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are also generics, allowing you to be more specific about the data. For
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instance, you can write ~~Model[List[Doc], Dict[str, float]]~~ to specify that
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the model expects a list of [`Doc`](/api/doc) objects as input, and returns a
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dictionary mapping strings to floats. Some of the most common types you'll see
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are:
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| Type | Description |
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| ------------------ | ---------------------------------------------------------------------------------------------------- |
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| ~~List[Doc]~~ | A batch of [`Doc`](/api/doc) objects. Most components expect their models to take this as input. |
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| ~~Floats2d~~ | A two-dimensional `numpy` or `cupy` array of floats. Usually 32-bit. |
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| ~~Ints2d~~ | A two-dimensional `numpy` or `cupy` array of integers. Common dtypes include uint64, int32 and int8. |
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| ~~List[Floats2d]~~ | A list of two-dimensional arrays, generally with one array per `Doc` and one row per token. |
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| ~~Ragged~~ | A container to handle variable-length sequence data in an unpadded contiguous array. |
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| ~~Padded~~ | A container to handle variable-length sequence data in a passed contiguous array. |
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The model type-signatures help you figure out which model architectures and
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components can fit together. For instance, the
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[`TextCategorizer`](/api/textcaregorizer) class expects a model typed
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~~Model[List[Doc], Floats2d]~~, because the model will predict one row of
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category probabilities per `Doc`. In contrast, the `Tagger` class expects a
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model typed ~~Model[List[Doc], List[Floats2d]]~~, because it needs to predict
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one row of probabilities per token. There's no guarantee that two models with
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the same type-signature can be used interchangeably. There are many other ways
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they could be incompatible. However, if the types don't match, they almost
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surely _won't_ be compatible. This little bit of validation goes a long way,
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especially if you configure your editor or other tools to highlight these errors
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early. Thinc will also verify that your types match correctly when your config
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file is processed at the beginning of training.
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## Defining sublayers {#sublayers}
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Model architecture functions often accept sublayers as arguments, so that you
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can try substituting a different layer into the network. Depending on how the
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architecture function is structured, you might be able to define your network
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structure entirely through the [config system](/usage/training#config), using
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layers that have already been defined. The
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[transformers documentation](/usage/embeddings-transformers#transformers)
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section shows a common example of swapping in a different sublayer. In most NLP
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neural network models, the most important parts of the network are what we refer
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to as the
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[embed and encode](https://explosion.ai/blog/embed-encode-attend-predict) steps.
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These steps together compute dense, context-sensitive representations of the
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tokens. Most of spaCy's default architectures accept a `tok2vec` layer as an
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argument, so you can control this important part of the network separately. This
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makes it easy to switch between transformer, CNN, BiLSTM or other feature
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extraction approaches. And if you want to define your own solution, all you need
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to do is register a ~~Model[List[Doc], List[Floats2d]]~~ architecture function,
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and you'll be able to try it out in any of spaCy components.
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### Registering new architectures
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- Recap concept, link to config docs.
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## Wrapping PyTorch, TensorFlow and other frameworks {#frameworks}
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- Explain concept
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- Link off to notebook
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## Models for trainable components {#components}
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- Interaction with `predict`, `get_loss` and `set_annotations`
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- Initialization life-cycle with `begin_training`.
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- Link to relation extraction notebook.
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