T2T is a modular and extensible library and binaries for supervised learning with TensorFlow and with support for sequence tasks. It is actively used and maintained by researchers and engineers within the Google Brain team. You can read more about Tensor2Tensor in the recent Google Research Blog post introducing it.
We're eager to collaborate with you on extending T2T, so please feel free to open an issue on GitHub or send along a pull request to add your dataset or model. See our contribution doc for details and our open issues. And chat with us and other users on Gitter.
Here's a walkthrough training a good English-to-German translation model using the Transformer model from Attention Is All You Need on WMT data.
pip install tensor2tensor
# See what problems, models, and hyperparameter sets are available.
# You can easily swap between them (and add new ones).
t2t-trainer --registry_help
PROBLEM=wmt_ende_tokens_32k
MODEL=transformer
HPARAMS=transformer_base_single_gpu
DATA_DIR=$HOME/t2t_data
TMP_DIR=/tmp/t2t_datagen
TRAIN_DIR=$HOME/t2t_train/$PROBLEM/$MODEL-$HPARAMS
mkdir -p $DATA_DIR $TMP_DIR $TRAIN_DIR
# Generate data
t2t-datagen \
--data_dir=$DATA_DIR \
--tmp_dir=$TMP_DIR \
--num_shards=100 \
--problem=$PROBLEM
mv $TMP_DIR/tokens.vocab.32768 $DATA_DIR
# Train
# * If you run out of memory, add --hparams='batch_size=2048' or even 1024.
t2t-trainer \
--data_dir=$DATA_DIR \
--problems=$PROBLEM \
--model=$MODEL \
--hparams_set=$HPARAMS \
--output_dir=$TRAIN_DIR
# Decode
DECODE_FILE=$DATA_DIR/decode_this.txt
echo "Hello world" >> $DECODE_FILE
echo "Goodbye world" >> $DECODE_FILE
BEAM_SIZE=4
ALPHA=0.6
t2t-trainer \
--data_dir=$DATA_DIR \
--problems=$PROBLEM \
--model=$MODEL \
--hparams_set=$HPARAMS \
--output_dir=$TRAIN_DIR \
--train_steps=0 \
--eval_steps=0 \
--decode_beam_size=$BEAM_SIZE \
--decode_alpha=$ALPHA \
--decode_from_file=$DECODE_FILE
cat $DECODE_FILE.$MODEL.$HPARAMS.beam$BEAM_SIZE.alpha$ALPHA.decodes
# Assumes tensorflow or tensorflow-gpu installed
pip install tensor2tensor
# Installs with tensorflow-gpu requirement
pip install tensor2tensor[tensorflow_gpu]
# Installs with tensorflow (cpu) requirement
pip install tensor2tensor[tensorflow]
Binaries:
# Data generator
t2t-datagen
# Trainer
t2t-trainer --registry_help
Library usage:
python -c "from tensor2tensor.models.transformer import Transformer"
- Many state of the art and baseline models are built-in and new models can be added easily (open an issue or pull request!).
- Many datasets across modalities - text, audio, image - available for generation and use, and new ones can be added easily (open an issue or pull request for public datasets!).
- Models can be used with any dataset and input mode (or even multiple); all
modality-specific processing (e.g. embedding lookups for text tokens) is done
with
Modalityobjects, which are specified per-feature in the dataset/task specification. - Support for multi-GPU machines and synchronous (1 master, many workers) and asynchrounous (independent workers synchronizing through a parameter server) distributed training.
- Easily swap amongst datasets and models by command-line flag with the data
generation script
t2t-datagenand the training scriptt2t-trainer.
Datasets are all standardized on TFRecord files with tensorflow.Example
protocol buffers. All datasets are registered and generated with the
data
generator
and many common sequence datasets are already available for generation and use.
Problems define training-time hyperparameters for the dataset and task,
mainly by setting input and output modalities (e.g. symbol, image, audio,
label) and vocabularies, if applicable. All problems are defined in
problem_hparams.py.
Modalities, defined in
modality.py,
abstract away the input and output data types so that models may deal with
modality-independent tensors.
T2TModels define the core tensor-to-tensor transformation, independent of
input/output modality or task. Models take dense tensors in and produce dense
tensors that may then be transformed in a final step by a modality depending
on the task (e.g. fed through a final linear transform to produce logits for a
softmax over classes). All models are imported in
models.py,
inherit from T2TModel - defined in
t2t_model.py
- and are registered with
@registry.register_model.
Hyperparameter sets are defined and registered in code with
@registry.register_hparams
and are encoded in
tf.contrib.training.HParams
objects. The HParams are available to both the problem specification and the
model. A basic set of hyperparameters are defined in
common_hparams.py
and hyperparameter set functions can compose other hyperparameter set functions.
The trainer binary is the main entrypoint for training, evaluation, and
inference. Users can easily switch between problems, models, and hyperparameter
sets by using the --model, --problems, and --hparams_set flags. Specific
hyperparameters can be overridden with the --hparams flag. --schedule and
related flags control local and distributed training/evaluation
(distributed training documentation).
T2T's components are registered using a central registration mechanism that
enables easily adding new ones and easily swapping amongst them by command-line
flag. You can add your own components without editing the T2T codebase by
specifying the --t2t_usr_dir flag in t2t-trainer.
You can currently do so for models, hyperparameter sets, and modalities. Please do submit a pull request if your component might be useful to others.
Here's an example with a new hyperparameter set:
# In ~/usr/t2t_usr/my_registrations.py
from tensor2tensor.models import transformer
from tensor2tensor.utils import registry
@registry.register_hparams
def transformer_my_very_own_hparams_set():
hparams = transformer.transformer_base()
hparams.hidden_size = 1024
...# In ~/usr/t2t_usr/__init__.py
import my_registrationst2t-trainer --t2t_usr_dir=~/usr/t2t_usr --registry_help
You'll see under the registered HParams your
transformer_my_very_own_hparams_set, which you can directly use on the command
line with the --hparams_set flag.
See the data generators README.
Note: This is not an official Google product.