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--- |
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library_name: keras-hub |
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--- |
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## Model Overview |
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ALBERT encoder network. |
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This class implements a bi-directional Transformer-based encoder as |
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described in |
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["ALBERT: A Lite BERT for Self-supervised Learning of Language Representations"](https://arxiv.org/abs/1909.11942). |
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ALBERT is a more efficient variant of BERT, and uses parameter reduction |
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techniques such as cross-layer parameter sharing and factorized embedding |
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parameterization. This model class includes the embedding lookups and |
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transformer layers, but not the masked language model or sentence order |
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prediction heads. |
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The default constructor gives a fully customizable, randomly initialized |
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ALBERT encoder with any number of layers, heads, and embedding dimensions. |
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To load preset architectures and weights, use the `from_preset` constructor. |
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Disclaimer: Pre-trained models are provided on an "as is" basis, without |
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warranties or conditions of any kind. |
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__Arguments__ |
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- __vocabulary_size__: int. The size of the token vocabulary. |
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- __num_layers__: int, must be divisible by `num_groups`. The number of |
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"virtual" layers, i.e., the total number of times the input sequence |
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will be fed through the groups in one forward pass. The input will |
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be routed to the correct group based on the layer index. |
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- __num_heads__: int. The number of attention heads for each transformer. |
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The hidden size must be divisible by the number of attention heads. |
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- __embedding_dim__: int. The size of the embeddings. |
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- __hidden_dim__: int. The size of the transformer encoding and pooler layers. |
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- __intermediate_dim__: int. The output dimension of the first Dense layer in |
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a two-layer feedforward network for each transformer. |
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- __num_groups__: int. Number of groups, with each group having |
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`num_inner_repetitions` number of `TransformerEncoder` layers. |
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- __num_inner_repetitions__: int. Number of `TransformerEncoder` layers per |
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group. |
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- __dropout__: float. Dropout probability for the Transformer encoder. |
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- __max_sequence_length__: int. The maximum sequence length that this encoder |
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can consume. If None, `max_sequence_length` uses the value from |
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sequence length. This determines the variable shape for positional |
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embeddings. |
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- __num_segments__: int. The number of types that the 'segment_ids' input can |
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take. |
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## Example Usage |
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```python |
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import keras |
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import keras_hub |
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import numpy as np |
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``` |
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Raw string data. |
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```python |
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features = ["The quick brown fox jumped.", "I forgot my homework."] |
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labels = [0, 3] |
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# Pretrained classifier. |
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classifier = keras_hub.models.AlbertClassifier.from_preset( |
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"albert_extra_large_en_uncased", |
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num_classes=4, |
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) |
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classifier.fit(x=features, y=labels, batch_size=2) |
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classifier.predict(x=features, batch_size=2) |
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# Re-compile (e.g., with a new learning rate). |
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classifier.compile( |
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loss=keras.losses.SparseCategoricalCrossentropy(from_logits=True), |
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optimizer=keras.optimizers.Adam(5e-5), |
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jit_compile=True, |
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) |
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# Access backbone programmatically (e.g., to change `trainable`). |
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classifier.backbone.trainable = False |
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# Fit again. |
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classifier.fit(x=features, y=labels, batch_size=2) |
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``` |
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Preprocessed integer data. |
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```python |
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features = { |
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"token_ids": np.ones(shape=(2, 12), dtype="int32"), |
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"segment_ids": np.array([[0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 0, 0]] * 2), |
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"padding_mask": np.array([[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0]] * 2), |
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} |
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labels = [0, 3] |
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# Pretrained classifier without preprocessing. |
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classifier = keras_hub.models.AlbertClassifier.from_preset( |
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"albert_extra_large_en_uncased", |
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num_classes=4, |
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preprocessor=None, |
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) |
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classifier.fit(x=features, y=labels, batch_size=2) |
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``` |
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## Example Usage with Hugging Face URI |
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```python |
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import keras |
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import keras_hub |
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import numpy as np |
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``` |
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Raw string data. |
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```python |
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features = ["The quick brown fox jumped.", "I forgot my homework."] |
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labels = [0, 3] |
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# Pretrained classifier. |
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classifier = keras_hub.models.AlbertClassifier.from_preset( |
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"hf://keras/albert_extra_large_en_uncased", |
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num_classes=4, |
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) |
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classifier.fit(x=features, y=labels, batch_size=2) |
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classifier.predict(x=features, batch_size=2) |
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# Re-compile (e.g., with a new learning rate). |
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classifier.compile( |
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loss=keras.losses.SparseCategoricalCrossentropy(from_logits=True), |
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optimizer=keras.optimizers.Adam(5e-5), |
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jit_compile=True, |
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) |
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# Access backbone programmatically (e.g., to change `trainable`). |
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classifier.backbone.trainable = False |
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# Fit again. |
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classifier.fit(x=features, y=labels, batch_size=2) |
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``` |
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Preprocessed integer data. |
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```python |
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features = { |
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"token_ids": np.ones(shape=(2, 12), dtype="int32"), |
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"segment_ids": np.array([[0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 0, 0]] * 2), |
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"padding_mask": np.array([[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0]] * 2), |
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} |
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labels = [0, 3] |
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# Pretrained classifier without preprocessing. |
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classifier = keras_hub.models.AlbertClassifier.from_preset( |
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"hf://keras/albert_extra_large_en_uncased", |
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num_classes=4, |
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preprocessor=None, |
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) |
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classifier.fit(x=features, y=labels, batch_size=2) |
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``` |
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