Awesome
Lingvo
What is it?
Lingvo is a framework for building neural networks in Tensorflow, particularly sequence models.
A list of publications using Lingvo can be found here.
Table of Contents
Releases
PyPI Version | Commit |
---|---|
0.12.4 | -- |
0.11.0 | 6fae10077756f54beacd5c454959f20b33fd65e2 |
0.10.0 | 075fd1d88fa6f92681f58a2383264337d0e737ee |
0.9.1 | c1124c5aa7af13d2dd2b6d43293c8ca6d022b008 |
0.9.0 | f826e99803d1b51dccbbbed1ef857ba48a2bbefe |
PyPI Version | Commit |
---|---|
0.8.2 | 93e123c6788e934e6b7b1fd85770371becf1e92e |
0.7.2 | b05642fe386ee79e0d88aa083565c9a93428519e |
Details for older releases are unavailable.
</p></details>Major breaking changes
NOTE: this is not a comprehensive list. Lingvo releases do not offer any guarantees regarding backwards compatibility.
HEAD
Nothing here.
0.12.0
- General
- Tensorflow 2.9 is now required.
- Python 3.7 support has been removed.
- Compatible with (up to) Tensorflow 2.10 and Python 3.10
0.11.0
- General
- Tensorflow 2.7 is now the required version.
- Python 3.6 support has been removed.
0.10.0
- General
- Tensorflow 2.6 is now the required version.
- The theta_fn arg to CreateVariable() has been removed.
0.9.1
- General
- Python 3.9 is now supported.
- ops.beam_search_step now takes and returns an additional arg
beam_done
. - The namedtuple beam_search_helper.BeamSearchDecodeOutput now removes the
field
done_hyps
.
0.9.0
- General
- Tensorflow 2.5 is now the required version.
- Python 3.5 support has been removed.
- py_utils.AddGlobalVN and py_utils.AddPerStepVN have been combined into py_utils.AddVN.
- BaseSchedule().Value() no longer takes a step arg.
- Classes deriving from BaseSchedule should implement Value() not FProp().
- theta.global_step has been removed in favor of py_utils.GetGlobalStep().
- py_utils.GenerateStepSeedPair() no longer takes a global_step arg.
- PostTrainingStepUpdate() no longer takes a global_step arg.
- The fatal_errors argument to custom input ops now takes error message substrings rather than integer error codes.
0.8.2
- General
- NestedMap Flatten/Pack/Transform/Filter etc now expand descendent dicts as well.
- Subclasses of BaseLayer extending from
abc.ABCMeta
should now extendbase_layer.ABCLayerMeta
instead. - Trying to call self.CreateChild outside of
__init__
now raises an error. base_layer.initializer
has been removed. Subclasses no longer need to decorate their__init__
function.- Trying to call self.CreateVariable outside of
__init__
or_CreateLayerVariables
now raises an error. - It is no longer possible to access self.vars or self.theta inside of
__init__
. Refactor by moving the variable creation and access to_CreateLayerVariables
. The variable scope is set automatically according to the layer name in_CreateLayerVariables
.
Details for older releases are unavailable.
</p></details>Quick start
Installation
There are two ways to set up Lingvo: installing a fixed version through pip, or cloning the repository and building it with bazel. Docker configurations are provided for each case.
If you would just like to use the framework as-is, it is easiest to just install it through pip. This makes it possible to develop and train custom models using a frozen version of the Lingvo framework. However, it is difficult to modify the framework code or implement new custom ops.
If you would like to develop the framework further and potentially contribute pull requests, you should avoid using pip and clone the repository instead.
pip:
The Lingvo pip package can be installed with
pip3 install lingvo
.
See the codelab for how to get started with the pip package.
From sources:
The prerequisites are:
- a TensorFlow 2.7 installation,
- a
C++
compiler (only g++ 7.3 is officially supported), and - the bazel build system.
Refer to docker/dev.Dockerfile for a set of working requirements.
git clone
the repository, then use bazel to build and run targets directly.
The python -m module
commands in the codelab need to be mapped onto bazel run
commands.
docker:
Docker configurations are available for both situations. Instructions can be found in the comments on the top of each file.
- lib.dockerfile has the Lingvo pip package preinstalled.
- dev.Dockerfile can be used to build Lingvo from sources.
Running the MNIST image model
Preparing the input data
pip:
mkdir -p /tmp/mnist
python3 -m lingvo.tools.keras2ckpt --dataset=mnist
bazel:
mkdir -p /tmp/mnist
bazel run -c opt //lingvo/tools:keras2ckpt -- --dataset=mnist
The following files will be created in /tmp/mnist
:
mnist.data-00000-of-00001
: 53MB.mnist.index
: 241 bytes.
Running the model
pip:
cd /tmp/mnist
curl -O https://raw.githubusercontent.com/tensorflow/lingvo/master/lingvo/tasks/image/params/mnist.py
python3 -m lingvo.trainer --run_locally=cpu --mode=sync --model=mnist.LeNet5 --logdir=/tmp/mnist/log
bazel:
(cpu) bazel build -c opt //lingvo:trainer
(gpu) bazel build -c opt --config=cuda //lingvo:trainer
bazel-bin/lingvo/trainer --run_locally=cpu --mode=sync --model=image.mnist.LeNet5 --logdir=/tmp/mnist/log --logtostderr
After about 20 seconds, the loss should drop below 0.3 and a checkpoint will be saved, like below. Kill the trainer with Ctrl+C.
trainer.py:518] step: 205, steps/sec: 11.64 ... loss:0.25747201 ...
checkpointer.py:115] Save checkpoint
checkpointer.py:117] Save checkpoint done: /tmp/mnist/log/train/ckpt-00000205
Some artifacts will be produced in /tmp/mnist/log/control
:
params.txt
: hyper-parameters.model_analysis.txt
: model sizes for each layer.train.pbtxt
: the trainingtf.GraphDef
.events.*
: a tensorboard events file.
As well as in /tmp/mnist/log/train
:
checkpoint
: a text file containing information about the checkpoint files.ckpt-*
: the checkpoint files.
Now, let's evaluate the model on the "Test" dataset. In the normal training setup the trainer and evaler should be run at the same time as two separate processes.
pip:
python3 -m lingvo.trainer --job=evaler_test --run_locally=cpu --mode=sync --model=mnist.LeNet5 --logdir=/tmp/mnist/log
bazel:
bazel-bin/lingvo/trainer --job=evaler_test --run_locally=cpu --mode=sync --model=image.mnist.LeNet5 --logdir=/tmp/mnist/log --logtostderr
Kill the job with Ctrl+C when it starts waiting for a new checkpoint.
base_runner.py:177] No new check point is found: /tmp/mnist/log/train/ckpt-00000205
The evaluation accuracy can be found slightly earlier in the logs.
base_runner.py:111] eval_test: step: 205, acc5: 0.99775392, accuracy: 0.94150388, ..., loss: 0.20770954, ...
Running the machine translation model
To run a more elaborate model, you'll need a cluster with GPUs. Please refer to
third_party/py/lingvo/tasks/mt/README.md
for more information.
Running the GShard transformer based giant language model
To train a GShard language model with one trillion parameters on GCP using
CloudTPUs v3-512 using 512-way model parallelism, please refer to
third_party/py/lingvo/tasks/lm/README.md
for more information.
Running the 3d object detection model
To run the StarNet model using CloudTPUs on GCP, please refer to
third_party/py/lingvo/tasks/car/README.md
.
Models
Automatic Speech Recognition
-
Listen, Attend and Spell.<br/> William Chan, Navdeep Jaitly, Quoc V. Le, and Oriol Vinyals. ICASSP 2016.
End-to-end Continuous Speech Recognition using Attention-based Recurrent NN: First Results.<br/>Jan Chorowski, Dzmitry Bahdanau, Kyunghyun Cho, and Yoshua Bengio. arXiv 2014.
Car
-
DeepFusion: Lidar-Camera Deep Fusion for Multi-Modal 3D Object Detection.<br/> Yingwei Li, Adams Wei Yu, Tianjian Meng, Ben Caine, Jiquan Ngiam, Daiyi Peng, Junyang Shen, Bo Wu, Yifeng Lu, Denny Zhou, Quoc V. Le, Alan Yuille, Mingxing Tan. CVPR 2022.
-
StarNet: Targeted Computation for Object Detection in Point Clouds.<br/> Jiquan Ngiam, Benjamin Caine, Wei Han, Brandon Yang, Yuning Chai, Pei Sun, Yin Zhou, Xi Yi, Ouais Alsharif, Patrick Nguyen, Zhifeng Chen, Jonathon Shlens, and Vijay Vasudevan. arXiv 2019.
Image
-
Gradient-based learning applied to document recognition.<br/> Yann LeCun, Leon Bottou, Yoshua Bengio, and Patrick Haffner. IEEE 1998.
Language Modelling
-
Exploring the Limits of Language Modeling.<br/> Rafal Jozefowicz, Oriol Vinyals, Mike Schuster, Noam Shazeer, and Yonghui Wu. arXiv, 2016.
-
GShard: Scaling Giant Models with Conditional Computation and Automatic Sharding.<br/> Dmitry Lepikhin, HyoukJoong Lee, Yuanzhong Xu, Dehao Chen, Orhan Firat, Yanping Huang, Maxim Krikun, Noam Shazeer and Zhifeng Chen arXiv, 2020.
Machine Translation
-
The Best of Both Worlds: Combining Recent Advances in Neural Machine Translation.<br/> Mia X. Chen, Orhan Firat, Ankur Bapna, Melvin Johnson, Wolfgang Macherey, George Foster, Llion Jones, Mike Schuster, Noam Shazeer, Niki Parmar, Ashish Vaswani, Jakob Uszkoreit, Lukasz Kaiser, Zhifeng Chen, Yonghui Wu, and Macduff Hughes. ACL 2018.
-
Self-supervised and Supervised Joint Training for Resource-rich Neural Machine Translation.<br/> Yong Cheng, Wei Wang, Lu Jiang, and Wolfgang Macherey. ICML 2021.
References
Please cite this paper when referencing Lingvo.
@misc{shen2019lingvo,
title={Lingvo: a Modular and Scalable Framework for Sequence-to-Sequence Modeling},
author={Jonathan Shen and Patrick Nguyen and Yonghui Wu and Zhifeng Chen and others},
year={2019},
eprint={1902.08295},
archivePrefix={arXiv},
primaryClass={cs.LG}
}