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94 lines
4.1 KiB
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94 lines
4.1 KiB
Plaintext
//- 💫 DOCS > USAGE > ADDING LANGUAGES > TRAINING
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p
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| spaCy expects that common words will be cached in a
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| #[+api("vocab") #[code Vocab]] instance. The vocabulary caches lexical
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| features, and makes it easy to use information from unlabelled text
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| samples in your models. Specifically, you'll usually want to collect
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| word frequencies, and train word vectors. To generate the word frequencies
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| from a large, raw corpus, you can use the
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| #[+src(gh("spacy-dev-resources", "training/word_freqs.py")) #[code word_freqs.py]]
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| script from the spaCy developer resources.
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+github("spacy-dev-resources", "training/word_freqs.py")
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p
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| Note that your corpus should not be preprocessed (i.e. you need
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| punctuation for example). The word frequencies should be generated as a
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| tab-separated file with three columns:
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+list("numbers")
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+item The number of times the word occurred in your language sample.
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+item The number of distinct documents the word occurred in.
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+item The word itself.
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+code("es_word_freqs.txt", "text").
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6361109 111 Aunque
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23598543 111 aunque
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10097056 111 claro
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193454 111 aro
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7711123 111 viene
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12812323 111 mal
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23414636 111 momento
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2014580 111 felicidad
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233865 111 repleto
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15527 111 eto
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235565 111 deliciosos
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17259079 111 buena
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71155 111 Anímate
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37705 111 anímate
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33155 111 cuéntanos
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2389171 111 cuál
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961576 111 típico
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+aside("Brown Clusters")
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| Additionally, you can use distributional similarity features provided by the
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| #[+a("https://github.com/percyliang/brown-cluster") Brown clustering algorithm].
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| You should train a model with between 500 and 1000 clusters. A minimum
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| frequency threshold of 10 usually works well.
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p
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| You should make sure you use the spaCy tokenizer for your
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| language to segment the text for your word frequencies. This will ensure
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| that the frequencies refer to the same segmentation standards you'll be
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| using at run-time. For instance, spaCy's English tokenizer segments
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| "can't" into two tokens. If we segmented the text by whitespace to
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| produce the frequency counts, we'll have incorrect frequency counts for
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| the tokens "ca" and "n't".
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+h(4, "word-vectors") Training the word vectors
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p
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| #[+a("https://en.wikipedia.org/wiki/Word2vec") Word2vec] and related
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| algorithms let you train useful word similarity models from unlabelled
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| text. This is a key part of using
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| #[+a("/usage/deep-learning") deep learning] for NLP with limited
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| labelled data. The vectors are also useful by themselves – they power
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| the #[code .similarity()] methods in spaCy. For best results, you should
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| pre-process the text with spaCy before training the Word2vec model. This
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| ensures your tokenization will match. You can use our
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| #[+src(gh("spacy-dev-resources", "training/word_vectors.py")) word vectors training script],
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| which pre-processes the text with your language-specific tokenizer and
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| trains the model using #[+a("https://radimrehurek.com/gensim/") Gensim].
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| The #[code vectors.bin] file should consist of one word and vector per line.
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+github("spacy-dev-resources", "training/word_vectors.py")
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+h(3, "train-tagger-parser") Training the tagger and parser
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p
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| You can now train the model using a corpus for your language annotated
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| with #[+a("http://universaldependencies.org/") Universal Dependencies].
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| If your corpus uses the
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| #[+a("http://universaldependencies.org/docs/format.html") CoNLL-U] format,
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| i.e. files with the extension #[code .conllu], you can use the
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| #[+api("cli#convert") #[code convert]] command to convert it to spaCy's
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| #[+a("/api/annotation#json-input") JSON format] for training.
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| Once you have your UD corpus transformed into JSON, you can train your
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| model use the using spaCy's #[+api("cli#train") #[code train]] command.
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+infobox
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| For more details and examples of how to
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| #[strong train the tagger and dependency parser], see the
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| #[+a("/usage/training#tagger-parser") usage guide on training].
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