My public talk about this project at Sberloga:
Web-service for Sentence Embeddings
MUSE stands for Multilingual Universal Sentence Encoder - multilingual extension (supports 16 languages) of Universal Sentence Encoder (USE).
MUSE model encodes sentences into embedding vectors of fixed size.
MUSE as Service is the REST API for sentence tokenization and embedding using MUSE model from TensorFlow Hub.
It is written using Flask and Gunicorn.
MUSE model from TensorFlow Hub requires next packages to be installed:
- tensorflow
- tensorflow-hub
- tensorflow-text
These packages take up more than 1GB of memory. The model itself takes up 280MB of memory.
For efficient memory usage when working with MUSE model on several projects (several virtual environments) or/and with teammates (several model copies on different computers) it is better to deploy one instance of the model in one virtual environment where all teammates have access to.
This is what MUSE as Service is made for! ❤️
Python >= 3.6
To install MUSE as Service run:
# clone repo (https/ssh)
git clone https://github.com/dayyass/muse-as-service.git
# git clone [email protected]:dayyass/muse-as-service.git
# install dependencies (preferable in venv)
cd muse-as-service
python3 -m venv venv
source venv/bin/activate
pip install --upgrade pip && pip install -r requirements.txt
Before using the service you need to:
- download MUSE model executing the following command:
python models/download_muse.py
To build a docker image with a service parametrized with gunicorn.conf.py file run:
docker build -t muse_as_service .
NOTE: instead of building a docker image, you can pull it from Docker Hub.
To launch the service (either locally or on a server) use a docker container:
docker run -d -p {host_port}:{container_port} --name muse_as_service muse_as_service
NOTE: container_port
should be equal to port
in gunicorn.conf.py file.
You can also launch the service without docker, but it is preferable to launch the service inside the docker container:
- Gunicorn:
gunicorn --config gunicorn.conf.py app:app
(parametrized with gunicorn.conf.py file) - Flask:
python app.py --host {host} --port {port}
(defaulthost 0.0.0.0
andport 5000
)
It is also possible to launch the service using systemd.
MUSE as Service supports GPU inference. To launch the service with GPU support you need:
- install NVIDIA Container Toolkit
- use
CUDA_VISIBLE_DEVICES
environment variable to specify GPU device if needed (e.g.export CUDA_VISIBLE_DEVICES=0
) - launch the service with
docker run
command above (afterdocker build
) with--gpus all
parameter
NOTE: since TensorFlow2.0 tensorflow
and tensorflow-gpu
packages are merged.
NOTE: depending on CUDA version installed you may need different tensorflow
versions (default version tensorflow==2.3.0
supports CUDA 10.1
). See table with TF/CUDA compatibility to choose the right one and pip install
it.
Since the service is usually running on server, it is important to restrict access to the service.
For this reason, MUSE as Service uses token-based authorization with JWT for users in sqlite database app.db.
Initially database has only one user with:
- username: "admin"
- password: "admin"
To add new user with username
and password
run:
python src/muse_as_service/database/add_user.py --username {username} --password {password}
NOTE: no passwords are stored in the database, only their hashes.
To remove the user with username
run:
python src/muse_as_service/database/remove_user.py --username {username}
MUSE as Service has the following endpoints:
- /login - POST request with `username` and `password` to get tokens (access and refresh) - /logout - POST request to remove tokens (access and refresh) - /token/refresh - POST request to refresh access token (refresh token required) - /tokenize - GET request for `sentence` tokenization (access token required) - /embed - GET request for `sentence` embedding (access token required)
You can use python requests package to work with HTTP requests:
import numpy as np
import requests
# params
ip = "localhost"
port = 5000
sentences = ["This is sentence example.", "This is yet another sentence example."]
# start session
session = requests.Session()
# login
response = session.post(
url=f"http://{ip}:{port}/login",
json={"username": "admin", "password": "admin"},
)
# tokenizer
response = session.get(
url=f"http://{ip}:{port}/tokenize",
params={"sentence": sentences},
)
tokenized_sentence = response.json()["tokens"]
# embedder
response = session.get(
url=f"http://{ip}:{port}/embed",
params={"sentence": sentences},
)
embedding = np.array(response.json()["embedding"])
# logout
response = session.post(
url=f"http://{ip}:{port}/logout",
)
# close session
session.close()
# results
print(tokenized_sentence) # [
# ["▁This", "▁is", "▁sentence", "▁example", "."],
# ["▁This", "▁is", "▁yet", "▁another", "▁sentence", "▁example", "."]
# ]
print(embedding.shape) # (2, 512)
However it is better to use built-in client MUSEClient for sentence tokenization and embedding, that wraps the functionality of the python requests package and provides user with a simpler interface.
To install the built-in client run:
pip install muse-as-service
Instead of using endpoints, listed above, directly, MUSEClient provides the following methods to work with:
- login - method to login with `username` and `password` - logout - method to logout (login required) - tokenize - method for `sentence` tokenization (login required) - embed - method for `sentence` embedding (login required)
Usage example:
from muse_as_service import MUSEClient
# params
ip = "localhost"
port = 5000
sentences = ["This is sentence example.", "This is yet another sentence example."]
# init client
client = MUSEClient(ip=ip, port=port)
# login
client.login(username="admin", password="admin")
# tokenizer
tokenized_sentence = client.tokenize(sentences)
# embedder
embedding = client.embed(sentences)
# logout
client.logout()
# results
print(tokenized_sentence) # [
# ["▁This", "▁is", "▁sentence", "▁example", "."],
# ["▁This", "▁is", "▁yet", "▁another", "▁sentence", "▁example", "."]
# ]
print(embedding.shape) # (2, 512)
To use pre-commit hooks run:
pre-commit install
Before running tests and code coverage, you need to:
- run app.py in background:
python app.py &
To launch tests run:
python -m unittest discover
To measure code coverage run:
coverage run -m unittest discover && coverage report -m
NOTE: since we launched Flask application in background, we need to stop it after running tests and code coverage with the following command:
kill $(ps aux | grep '[a]pp.py' | awk '{print $2}')
MUSE model supports next languages:
- Arabic
- Chinese-simplified
- Chinese-traditional
- Dutch
- English
- French
- German
- Italian
- Japanese
- Korean
- Polish
- Portuguese
- Russian
- Spanish
- Thai
- Turkish
If you use muse-as-service in a scientific publication, we would appreciate references to the following BibTex entry:
@misc{dayyass2021muse,
author = {El-Ayyass, Dani},
title = {Multilingual Universal Sentence Encoder REST API},
howpublished = {\url{https://github.com/dayyass/muse-as-service}},
year = {2021}
}