GPT2CausalLM
classkeras_nlp.models.GPT2CausalLM(backbone, preprocessor=None, **kwargs)
An end-to-end GPT2 model for causal language modeling.
A causal language model (LM) predicts the next token based on previous
tokens. This task setup can be used to train the model unsupervised on
plain text input, or to autoregressively generate plain text similar to
the data used for training. This task can be used for pre-training or
fine-tuning a GPT-2 model, simply by calling fit()
.
This model has a generate()
method, which generates text based on a
prompt. The generation strategy used is controlled by an additional
sampler
argument on compile()
. You can recompile the model with
different keras_nlp.samplers
objects to control the generation. By
default, "top_k"
sampling will be used.
This model can optionally be configured with a preprocessor
layer, in
which case it will automatically apply preprocessing to string inputs during
fit()
, predict()
, evaluate()
and generate()
. This is done by default
when creating the model with from_preset()
.
Disclaimer: Pre-trained models are provided on an "as is" basis, without warranties or conditions of any kind. The underlying model is provided by a third party and subject to a separate license, available here.
Arguments
keras_nlp.models.GPT2Backbone
instance.keras_nlp.models.GPT2CausalLMPreprocessor
or None
.
If None
, this model will not apply preprocessing, and inputs
should be preprocessed before calling the model.Examples
Use generate()
to do text generation.
gpt2_lm = keras_nlp.models.GPT2CausalLM.from_preset("gpt2_base_en")
gpt2_lm.generate("I want to say", max_length=30)
# Generate with batched prompts.
gpt2_lm.generate(["This is a", "Where are you"], max_length=30)
Compile the generate()
function with a custom sampler.
gpt2_lm = keras_nlp.models.GPT2CausalLM.from_preset("gpt2_base_en")
gpt2_lm.compile(sampler="greedy")
gpt2_lm.generate("I want to say", max_length=30)
gpt2_lm.compile(sampler=keras_nlp.samplers.BeamSampler(num_beams=2))
gpt2_lm.generate("I want to say", max_length=30)
Use generate()
without preprocessing.
# Prompt the model with `5338, 318` (the token ids for `"Who is"`).
# Use `"padding_mask"` to indicate values that should not be overridden.
prompt = {
"token_ids": np.array([[5338, 318, 0, 0, 0]] * 2),
"padding_mask": np.array([[1, 1, 0, 0, 0]] * 2),
}
gpt2_lm = keras_nlp.models.GPT2CausalLM.from_preset(
"gpt2_base_en",
preprocessor=None,
)
gpt2_lm.generate(prompt)
Call fit()
on a single batch.
features = ["The quick brown fox jumped.", "I forgot my homework."]
gpt2_lm = keras_nlp.models.GPT2CausalLM.from_preset("gpt2_base_en")
gpt2_lm.fit(x=features, batch_size=2)
Call fit()
without preprocessing.
x = {
"token_ids": np.array([[50256, 1, 2, 3, 4]] * 2),
"padding_mask": np.array([[1, 1, 1, 1, 1]] * 2),
}
y = np.array([[1, 2, 3, 4, 50256]] * 2)
sw = np.array([[1, 1, 1, 1, 1]] * 2)
gpt2_lm = keras_nlp.models.GPT2CausalLM.from_preset(
"gpt2_base_en",
preprocessor=None,
)
gpt2_lm.fit(x=x, y=y, sample_weight=sw, batch_size=2)
Custom backbone and vocabulary.
features = ["a quick fox.", "a fox quick."]
vocab = {"<|endoftext|>": 0, "a": 4, "Ġquick": 5, "Ġfox": 6}
merges = ["Ġ q", "u i", "c k", "ui ck", "Ġq uick"]
merges += ["Ġ f", "o x", "Ġf ox"]
tokenizer = keras_nlp.models.GPT2Tokenizer(
vocabulary=vocab,
merges=merges,
)
preprocessor = keras_nlp.models.GPT2CausalLMPreprocessor(
tokenizer=tokenizer,
sequence_length=128,
)
backbone = keras_nlp.models.GPT2Backbone(
vocabulary_size=30552,
num_layers=4,
num_heads=4,
hidden_dim=256,
intermediate_dim=512,
max_sequence_length=128,
)
gpt2_lm = keras_nlp.models.GPT2CausalLM(
backbone=backbone,
preprocessor=preprocessor,
)
gpt2_lm.fit(x=features, batch_size=2)
from_preset
methodGPT2CausalLM.from_preset(preset, load_weights=True, **kwargs)
Instantiate a keras_nlp.models.Task
from a model preset.
A preset is a directory of configs, weights and other file assets used
to save and load a pre-trained model. The preset
can be passed as a
one of:
'bert_base_en'
'kaggle://user/bert/keras/bert_base_en'
'hf://user/bert_base_en'
'./bert_base_en'
For any Task
subclass, you can run cls.presets.keys()
to list all
built-in presets available on the class.
This constructor can be called in one of two ways. Either from a task
specific base class like keras_nlp.models.CausalLM.from_preset()
, or
from a model class like keras_nlp.models.BertClassifier.from_preset()
.
If calling from the a base class, the subclass of the returning object
will be inferred from the config in the preset directory.
Arguments
True
, the weights will be loaded into the
model architecture. If False
, the weights will be randomly
initialized.Examples
# Load a Gemma generative task.
causal_lm = keras_nlp.models.CausalLM.from_preset(
"gemma_2b_en",
)
# Load a Bert classification task.
model = keras_nlp.models.Classifier.from_preset(
"bert_base_en",
num_classes=2,
)
Preset name | Parameters | Description |
---|---|---|
gpt2_base_en | 124.44M | 12-layer GPT-2 model where case is maintained. Trained on WebText. |
gpt2_medium_en | 354.82M | 24-layer GPT-2 model where case is maintained. Trained on WebText. |
gpt2_large_en | 774.03M | 36-layer GPT-2 model where case is maintained. Trained on WebText. |
gpt2_extra_large_en | 1.56B | 48-layer GPT-2 model where case is maintained. Trained on WebText. |
gpt2_base_en_cnn_dailymail | 124.44M | 12-layer GPT-2 model where case is maintained. Finetuned on the CNN/DailyMail summarization dataset. |
generate
methodGPT2CausalLM.generate(inputs, max_length=None, stop_token_ids="auto")
Generate text given prompt inputs
.
This method generates text based on given inputs
. The sampling method
used for generation can be set via the compile()
method.
If inputs
are a tf.data.Dataset
, outputs will be generated
"batch-by-batch" and concatenated. Otherwise, all inputs will be handled
as a single batch.
If a preprocessor
is attached to the model, inputs
will be
preprocessed inside the generate()
function and should match the
structure expected by the preprocessor
layer (usually raw strings).
If a preprocessor
is not attached, inputs should match the structure
expected by the backbone
. See the example usage above for a
demonstration of each.
Arguments
tf.data.Dataset
. If a
preprocessor
is attached to the model, inputs
should match
the structure expected by the preprocessor
layer. If a
preprocessor
is not attached, inputs
should match the
structure expected the backbone
model.sequence_length
of the
preprocessor
. If preprocessor
is None
, inputs
should be
should be padded to the desired maximum length and this argument
will be ignored.None
, "auto", or tuple of token ids. Defaults
to "auto" which uses the preprocessor.tokenizer.end_token_id
.
Not specifying a processor will produce an error. None stops
generation after generating max_length
tokens. You may also
specify a list of token id's the model should stop on. Note that
sequences of tokens will each be interpreted as a stop token,
multi-token stop sequences are not supported.backbone
propertykeras_nlp.models.GPT2CausalLM.backbone
A keras_nlp.models.Backbone
model with the core architecture.
preprocessor
propertykeras_nlp.models.GPT2CausalLM.preprocessor
A keras_nlp.models.Preprocessor
layer used to preprocess input.