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167 lines
9.5 KiB
Markdown
167 lines
9.5 KiB
Markdown
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---
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title: Models
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teaser: Downloadable statistical models for spaCy to predict linguistic features
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menu:
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- ['Quickstart', 'quickstart']
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- ['Model Architecture', 'architecture']
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- ['Conventions', 'conventions']
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---
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spaCy v2.0 features new neural models for **tagging**, **parsing** and **entity
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recognition**. The models have been designed and implemented from scratch
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specifically for spaCy, to give you an unmatched balance of speed, size and
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accuracy. A novel bloom embedding strategy with subword features is used to
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support huge vocabularies in tiny tables. Convolutional layers with residual
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connections, layer normalization and maxout non-linearity are used, giving much
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better efficiency than the standard BiLSTM solution. For more details, see the
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notes on the [model architecture](#architecture).
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The parser and NER use an imitation learning objective to deliver **accuracy
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in-line with the latest research systems**, even when evaluated from raw text.
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With these innovations, spaCy v2.0's models are **10× smaller**, **20% more
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accurate**, and **even cheaper to run** than the previous generation.
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### Quickstart {hidden="true"}
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import QuickstartModels from 'widgets/quickstart-models.js'
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<QuickstartModels title="Quickstart" id="quickstart" description="Install a default model, get the code to load it from within spaCy and an example to test it. For more options, see the section on available models below." />
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<Infobox title="📖 Installation and usage">
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For more details on how to use models with spaCy, see the
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[usage guide on models](/usage/models).
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</Infobox>
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## Model architecture {#architecture}
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spaCy's statistical models have been custom-designed to give a high-performance
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mix of speed and accuracy. The current architecture hasn't been published yet,
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but in the meantime we prepared a video that explains how the models work, with
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particular focus on NER.
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<YouTube id="sqDHBH9IjRU" />
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The parsing model is a blend of recent results. The two recent inspirations have
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been the work of Eli Klipperwasser and Yoav Goldberg at Bar Ilan[^1], and the
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SyntaxNet team from Google. The foundation of the parser is still based on the
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work of Joakim Nivre[^2], who introduced the transition-based framework[^3], the
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arc-eager transition system, and the imitation learning objective. The model is
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implemented using [Thinc](https://github.com/explosion/thinc), spaCy's machine
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learning library. We first predict context-sensitive vectors for each word in
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the input:
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```python
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(embed_lower | embed_prefix | embed_suffix | embed_shape)
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>> Maxout(token_width)
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>> convolution ** 4
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```
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This convolutional layer is shared between the tagger, parser and NER, and will
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also be shared by the future neural lemmatizer. Because the parser shares these
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layers with the tagger, the parser does not require tag features. I got this
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trick from David Weiss's "Stack Combination" paper[^4].
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To boost the representation, the tagger actually predicts a "super tag" with
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POS, morphology and dependency label[^5]. The tagger predicts these supertags by
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adding a softmax layer onto the convolutional layer – so, we're teaching the
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convolutional layer to give us a representation that's one affine transform from
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this informative lexical information. This is obviously good for the parser
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(which backprops to the convolutions, too). The parser model makes a state
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vector by concatenating the vector representations for its context tokens. The
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current context tokens:
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| Context tokens | Description |
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| ---------------------------------------------------------------------------------- | --------------------------------------------------------------------------- |
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| `S0`, `S1`, `S2` | Top three words on the stack. |
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| `B0`, `B1` | First two words of the buffer. |
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| `S0L1`, `S1L1`, `S2L1`, `B0L1`, `B1L1`<br />`S0L2`, `S1L2`, `S2L2`, `B0L2`, `B1L2` | Leftmost and second leftmost children of `S0`, `S1`, `S2`, `B0` and `B1`. |
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| `S0R1`, `S1R1`, `S2R1`, `B0R1`, `B1R1`<br />`S0R2`, `S1R2`, `S2R2`, `B0R2`, `B1R2` | Rightmost and second rightmost children of `S0`, `S1`, `S2`, `B0` and `B1`. |
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This makes the state vector quite long: `13*T`, where `T` is the token vector
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width (128 is working well). Fortunately, there's a way to structure the
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computation to save some expense (and make it more GPU-friendly).
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The parser typically visits `2*N` states for a sentence of length `N` (although
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it may visit more, if it back-tracks with a non-monotonic transition[^4]). A
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naive implementation would require `2*N (B, 13*T) @ (13*T, H)` matrix
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multiplications for a batch of size `B`. We can instead perform one
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`(B*N, T) @ (T, 13*H)` multiplication, to pre-compute the hidden weights for
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each positional feature with respect to the words in the batch. (Note that our
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token vectors come from the CNN — so we can't play this trick over the
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vocabulary. That's how Stanford's NN parser[^3] works — and why its model is so
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big.)
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This pre-computation strategy allows a nice compromise between GPU-friendliness
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and implementation simplicity. The CNN and the wide lower layer are computed on
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the GPU, and then the precomputed hidden weights are moved to the CPU, before we
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start the transition-based parsing process. This makes a lot of things much
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easier. We don't have to worry about variable-length batch sizes, and we don't
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have to implement the dynamic oracle in CUDA to train.
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Currently the parser's loss function is multi-label log loss[^6], as the dynamic
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oracle allows multiple states to be 0 cost. This is defined as follows, where
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`gZ` is the sum of the scores assigned to gold classes:
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```python
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(exp(score) / Z) - (exp(score) / gZ)
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```
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<Infobox title="Bibliography">
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1. [Simple and Accurate Dependency Parsing Using Bidirectional LSTM Feature Representations {#fn-1}](https://www.semanticscholar.org/paper/Simple-and-Accurate-Dependency-Parsing-Using-Bidir-Kiperwasser-Goldberg/3cf31ecb2724b5088783d7c96a5fc0d5604cbf41).
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Eliyahu Kiperwasser, Yoav Goldberg. (2016)
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2. [A Dynamic Oracle for Arc-Eager Dependency Parsing {#fn-2}](https://www.semanticscholar.org/paper/A-Dynamic-Oracle-for-Arc-Eager-Dependency-Parsing-Goldberg-Nivre/22697256ec19ecc3e14fcfc63624a44cf9c22df4).
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Yoav Goldberg, Joakim Nivre (2012)
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3. [Parsing English in 500 Lines of Python {#fn-3}](https://explosion.ai/blog/parsing-english-in-python).
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Matthew Honnibal (2013)
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4. [Stack-propagation: Improved Representation Learning for Syntax {#fn-4}](https://www.semanticscholar.org/paper/Stack-propagation-Improved-Representation-Learning-Zhang-Weiss/0c133f79b23e8c680891d2e49a66f0e3d37f1466).
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Yuan Zhang, David Weiss (2016)
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5. [Deep multi-task learning with low level tasks supervised at lower layers {#fn-5}](https://www.semanticscholar.org/paper/Deep-multi-task-learning-with-low-level-tasks-supe-S%C3%B8gaard-Goldberg/03ad06583c9721855ccd82c3d969a01360218d86).
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Anders Søgaard, Yoav Goldberg (2016)
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6. [An Improved Non-monotonic Transition System for Dependency Parsing {#fn-6}](https://www.semanticscholar.org/paper/An-Improved-Non-monotonic-Transition-System-for-De-Honnibal-Johnson/4094cee47ade13b77b5ab4d2e6cb9dd2b8a2917c).
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Matthew Honnibal, Mark Johnson (2015)
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7. [A Fast and Accurate Dependency Parser using Neural Networks {#fn-7}](http://cs.stanford.edu/people/danqi/papers/emnlp2014.pdf).
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Danqi Cheng, Christopher D. Manning (2014)
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8. [Parsing the Wall Street Journal using a Lexical-Functional Grammar and Discriminative Estimation Techniques {#fn-8}](https://www.semanticscholar.org/paper/Parsing-the-Wall-Street-Journal-using-a-Lexical-Fu-Riezler-King/0ad07862a91cd59b7eb5de38267e47725a62b8b2).
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Stefan Riezler et al. (2002)
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</Infobox>
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## Model naming conventions {#conventions}
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In general, spaCy expects all model packages to follow the naming convention of
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`[lang`\_[name]]. For spaCy's models, we also chose to divide the name into
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three components:
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1. **Type:** Model capabilities (e.g. `core` for general-purpose model with
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vocabulary, syntax, entities and word vectors, or `depent` for only vocab,
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syntax and entities).
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2. **Genre:** Type of text the model is trained on, e.g. `web` or `news`.
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3. **Size:** Model size indicator, `sm`, `md` or `lg`.
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For example, `en_core_web_sm` is a small English model trained on written web
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text (blogs, news, comments), that includes vocabulary, vectors, syntax and
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entities.
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### Model versioning {#model-versioning}
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Additionally, the model versioning reflects both the compatibility with spaCy,
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as well as the major and minor model version. A model version `a.b.c` translates
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to:
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- `a`: **spaCy major version**. For example, `2` for spaCy v2.x.
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- `b`: **Model major version**. Models with a different major version can't be
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loaded by the same code. For example, changing the width of the model, adding
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hidden layers or changing the activation changes the model major version.
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- `c`: **Model minor version**. Same model structure, but different parameter
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values, e.g. from being trained on different data, for different numbers of
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iterations, etc.
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For a detailed compatibility overview, see the
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[`compatibility.json`](https://github.com/explosion/spacy-models/tree/master/compatibility.json)
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in the models repository. This is also the source of spaCy's internal
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compatibility check, performed when you run the [`download`](/api/cli#download)
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command.
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