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67 lines
2.9 KiB
Plaintext
67 lines
2.9 KiB
Plaintext
//- 💫 DOCS > USAGE > DEEP LEARNING > THINC
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p
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| #[+a(gh("thinc")) Thinc] is the machine learning library powering spaCy.
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| It's a practical toolkit for implementing models that follow the
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| #[+a("https://explosion.ai/blog/deep-learning-formula-nlp", true) "Embed, encode, attend, predict"]
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| architecture. It's designed to be easy to install, efficient for CPU
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| usage and optimised for NLP and deep learning with text – in particular,
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| hierarchically structured input and variable-length sequences.
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p
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| spaCy's built-in pipeline components can all be powered by any object
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| that follows Thinc's #[code Model] API. If a wrapper is not yet available
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| for the library you're using, you should create a
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| #[code thinc.neural.Model] subclass that implements a #[code begin_update]
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| method. You'll also want to implement #[code to_bytes], #[code from_bytes],
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| #[code to_disk] and #[code from_disk] methods, to save and load your
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| model. Here's the tempate you'll need to fill in:
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+code("Thinc Model API").
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class ThincModel(thinc.neural.Model):
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def __init__(self, *args, **kwargs):
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pass
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def begin_update(self, X, drop=0.):
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def backprop(dY, sgd=None):
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return dX
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return Y, backprop
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def to_disk(self, path, **exclude):
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return None
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def from_disk(self, path, **exclude):
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return self
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def to_bytes(self, **exclude):
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return bytes
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def from_bytes(self, msgpacked_bytes, **exclude):
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return self
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p
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| The #[code begin_update] method should return a callback, that takes the
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| gradient with respect to the output, and returns the gradient with
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| respect to the input. It's usually convenient to implement the callback
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| as a nested function, so you can refer to any intermediate variables from
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| the forward computation in the enclosing scope.
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+h(3, "how-thinc-works") How Thinc works
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p
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| Neural networks are all about composing small functions that we know how
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| to differentiate into larger functions that we know how to differentiate.
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| To differentiate a function efficiently, you usually need to store
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| intermediate results, computed during the "forward pass", to reuse them
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| during the backward pass. Most libraries require the data passed through
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| the network to accumulate these intermediate result. This is the "tape"
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| in tape-based differentiation.
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p
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| In Thinc, a model that computes #[code y = f(x)] is required to also
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| return a callback that computes #[code dx = f'(dy)]. The same
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| intermediate state needs to be tracked, but this becomes an
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| implementation detail for the model to take care of – usually, the
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| callback is implemented as a closure, so the intermediate results can be
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| read from the enclosing scope.
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