MLup framework, fast ml to production, easy to learn, easy to use.
Project description
PyMLup
Introduction
It's library for easy and fast run ML in production.
All you need is to deliver the model file and config to the server (in fact, the config is not necessary) 🙃
PyMLup is a modern way to run machine learning models in production. The market time has been reduced to a minimum. This library eliminates the need to write your own web applications with machine learning models and copy application code. It is enough to have a machine learning model to launch a web application with one command.
- It's library learning only clean python;
- Use FastApi in web app backend;
Work tested with machine learning model frameworks (links to tests):
- scikit-learn>=1.2.0,<1.3.0
- tensorflow>=2.0.0,<3.0.0
- lightgbm>=4.0.0,<5.0.0
- torch>=2.0.0,<3.0.0
- onnx>=1.0.0,<2.0.0
- onnxruntime>=1.0.0,<2.0.0
Support and tested with machine learning libraries:
- numpy>=1.0.0,<2.0.0
- pandas>=2.0.0,<3.0.0
- joblib>=1.2.0,<1.3.0
- tf2onnx>=1.0.0,<2.0.0
- skl2onnx>=1.0.0,<2.0.0
- jupyter==1.0.0
The easiest way to try:
pip install pymlup
mlup run -m /path/to/my/model.onnx
Useful links
How it's work
- You are making your machine learning model. Optional: you are making mlup config for your model.
- You deliver your model to server. Optional: you deliver your config to server.
- Installing pymlup to your server and libraries for model.
- Run web app from your model or your config 🙃
Requirements
Python 3.7+
- PyMLup stands on the shoulders of giants FastAPI for the web parts.
- Additionally, you need to install the libraries that your model uses.
Installation
pip install pymlup
You will also can install with ml backend library:
pip install "pymlup[scikit-learn]" # For scikit-learn
pip install "pymlup[lightgbm]" # For microsoft lightgbm
pip install "pymlup[tensorflow]" # For tensorflow
pip install "pymlup[torch]" # For torch
pip install "pymlup[onnx]" # For onnx models: torch, tensorflow, sklearn, etc...
Examples
Examples code
import mlup
class MyAnyModelForExample:
def predict(self, X):
return X
ml_model = MyAnyModelForExample()
up = mlup.UP(ml_model=ml_model)
# Need call up.ml.load(), for analyze your model
up.ml.load()
# If you want testing your web app, you can run in daemon mode
# You can open browser http://localhost:8009/docs
up.run_web_app(daemon=True)
import requests
response = requests.post('http://0.0.0.0:8009/predict', json={'X': [[1, 2, 3], [4, 5, 6]]})
print(response.json())
up.stop_web_app()
You can check work model by config, without web application.
predict
- Get model predict as inner arguments as in web app.predict_from
- Aspredict
method, but not use data transformer before call model predict.async_predict
- Asynchronous version of thepredict
method.
import mlup
import numpy
class MyAnyModelForExample:
def predict(self, X):
return X
ml_model = MyAnyModelForExample()
up = mlup.UP(ml_model=ml_model)
up.ml.load()
up.predict(X=[[1, 2, 3], [4, 5, 6]])
up.predict_from(X=numpy.array([[1, 2, 3], [4, 5, 6]]))
await up.async_predict(X=[[1, 2, 3], [4, 5, 6]])
Save ready application to disk
Make default config
If path endswith to json, make json config, else yaml config.
import mlup
mlup.generate_default_config('path_to_yaml_config.yaml')
From config
You can save ready config to disk, but you need set local storage and path to model file in server. In folder can there are many files, mask need for filter exactly our model file
import mlup
from mlup.ml.empty import EmptyModel # This stub class
from mlup import constants
up = mlup.UP(ml_model=EmptyModel())
up.conf.storage_type = constants.StorageType.disk
up.conf.storage_kwargs = {
'path_to_files': 'path/to/model/file/in/model_name.modelextension',
'file_mask': 'model_name.modelextension',
}
up.to_yaml("path_to_yaml_config.yaml")
up.to_json("path_to_json_config.json")
# After in server
up = mlup.UP.load_from_yaml("path_to_yaml_config.yaml", load_model=True)
up.run_web_app()
From pickle
If you make pickle/joblib file your mlup with model, don't need to change storage type, because your model there is in your pickle/joblib file.
import pickle
import mlup
from mlup.ml.empty import EmptyModel # This stub class
up = mlup.UP(ml_model=EmptyModel())
# You can create pickle file
with open('path_to_pickle_file.pckl', 'wb') as f:
pickle.dump(up, f)
# After in server
with open('path_to_pickle_file.pckl', 'rb') as f:
up = pickle.load(f)
up.ml.load()
up.run_web_app()
Change config
If you can change model settings (See Description of the application life cycle), need call up.ml.load_model_settings()
.
import mlup
class MyAnyModelForExample:
def predict(self, X):
return X
ml_model = MyAnyModelForExample()
up = mlup.UP(
ml_model=ml_model,
conf=mlup.Config(port=8011)
)
up.ml.load()
up.conf.auto_detect_predict_params = False
up.ml.load_model_settings()
Examples server commands
mlup run
You can run web application from model, config, pickle up object. Bash command mlup run making this.
See mlup run --help
or Description of the bash commands for full docs.
From model
mlup run -m /path/to/your/model.extension
This will run code something like this:
import mlup
from mlup import constants
up = mlup.UP(
conf=mlup.Config(
storage_type=constants.StorageType.disk,
storage_kwargs={
'path_to_files': '/path/to/your/model.extension',
'files_mask': r'.+',
},
)
)
up.ml.load()
up.run_web_app()
You change config attributes in this mode. For this, you can add arguments --up.<config_attribute_name>=new_value
.
(For more examples see mlup run --help
or Description of the bash commands).
From config
mlup run -c /path/to/your/config.yaml
# or mlup run -ct json -c /path/to/your/config.json
This will run code something like this:
import mlup
up = mlup.UP.load_from_yaml(conf_path='/path/to/your/config.yaml', load_model=True)
up.run_web_app()
From mlup.UP pickle/joblib object
mlup run -b /path/to/your/up_object.pckl
# or mlup run -bt joblib -b /path/to/your/up_object.joblib
This will run code something like this:
import pickle
with open('/path/to/your/up_object.pckl', 'rb') as f:
up = pickle.load(f)
up.run_web_app()
mlup make-app
This command making .py
file with mlup web application and your model, config, pickle up object or with default settings.
See mlup make-app --help
or Description of the bash commands for full docs.
With default settings
mlup make-app example_without_data_app.py
This command is making something like this:
# example_without_data_app.py
import mlup
# You can load the model yourself and pass it to the "ml_model" argument.
# up = mlup.UP(ml_model=my_model, conf=mlup.Config())
up = mlup.UP(
conf=mlup.Config(
# Set your config, for work model and get model.
# You can use storage_type and storage_kwargs for auto_load model from storage.
)
)
up.ml.load()
up.web.load()
# If you want to run the application yourself, or add something else to it, use this variable.
# Example with uvicorn: uvicorn example_app:app --host 0.0.0.0 --port 80
app = up.web.app
if __name__ == '__main__':
up.run_web_app()
And you can write your settings and run web application:
python3 example_without_data_app.py
With only model
mlup make-app -ms /path/to/my/model.onnx example_without_data_app.py
This command is making something like this:
# example_without_data_app.py
import mlup
from mlup import constants
up = mlup.UP(
conf=mlup.Config(
# Set your config, for work model and get model.
storage_type=constants.StorageType.disk,
storage_kwargs={
'path_to_files': '/path/to/my/model.onnx',
'files_mask': 'model.onnx',
},
)
)
up.ml.load()
up.web.load()
# If you want to run the application yourself, or add something else to it, use this variable.
# Example with uvicorn: uvicorn example_app:app --host 0.0.0.0 --port 80
app = up.web.app
if __name__ == '__main__':
up.run_web_app()
And you can run web application:
python3 example_without_data_app.py
With only config
mlup make-app -cs /path/to/my/config.yaml example_without_data_app.py
This command is making something like this:
# example_without_data_app.py
import mlup
up = mlup.UP.load_from_yaml('/path/to/my/config.yaml', load_model=False)
up.ml.load()
up.web.load()
# If you want to run the application yourself, or add something else to it, use this variable.
# Example with uvicorn: uvicorn example_app:app --host 0.0.0.0 --port 80
app = up.web.app
if __name__ == '__main__':
up.run_web_app()
And you can run web application:
python3 example_without_data_app.py
With only binary UP object
mlup make-app -bs /path/to/my/up.pickle example_without_data_app.py
This command is making something like this:
# example_without_data_app.py
import pickle
with open('/path/to/my/up.pickle', 'rb') as f:
up = pickle.load(f)
if not up.ml.loaded:
up.ml.load()
up.web.load()
# If you want to run the application yourself, or add something else to it, use this variable.
# Example with uvicorn: uvicorn example_app:app --host 0.0.0.0 --port 80
app = up.web.app
if __name__ == '__main__':
up.run_web_app()
And you can run web application:
python3 example_without_data_app.py
mlup validate-config
This command use for validation your config. This command have alpha version and need finalize.
See mlup validate-config --help
or Description of the bash commands for full docs.
mlup validate-config /path/to/my/conf.yaml
Web application interface
By default, web application starting on http://localhost:8009 and have api docs.
See Web app API for more details.
Interactive API docs
Now go to http://localhost:8009/docs.
You will see the automatic interactive API documentation (provided by Swagger UI):
Api points
/health
Use for check health web application.
HTTP's methods: HEAD, OPTIONS, GET
Return JSON
{'status': 200}
and status code is 200.
/info
Use for get model and application information. If set debug=True in config, return full config.
HTTP's methods: GET
Return JSON:
{
"model_info": {
"name": "MyFirstMLupModel",
"version": "1.0.0.0",
"type": "sklearn",
"columns": null
},
"web_app_info": {
"version": "1.0.0.0",
}
}
If set in config debug=True
, return another json, almost complete config. But no sensitive data.
{
"web_app_config": {
"host": "localhost",
"port": 8009,
"web_app_version": "1.0.0.0",
"column_validation": false,
"custom_column_pydantic_model": null,
"mode": "mlup.web.architecture.directly_to_predict.DirectlyToPredictArchitecture",
"max_queue_size": 100,
"ttl_predicted_data": 60,
"ttl_client_wait": 30.0,
"min_batch_len": 10,
"batch_worker_timeout": 1.0,
"is_long_predict": false,
"show_docs": true,
"debug": true,
"throttling_max_requests": null,
"throttling_max_request_len": null,
"timeout_for_shutdown_daemon": 3.0,
"item_id_col_name": "mlup_item_id"
},
"model_config": {
"name": "MyFirstMLupModel",
"version": "1.0.0.0",
"type": "sklearn",
"columns": null,
"predict_method_name": "predict",
"auto_detect_predict_params": true,
"storage_type": "mlup.ml.storage.memory.MemoryStorage",
"binarization_type": "auto",
"use_thread_loop": true,
"max_thread_loop_workers": true,
"data_transformer_for_predict": "mlup.ml.data_transformers.numpy_data_transformer.NumpyDataTransformer",
"data_transformer_for_predicted": "mlup.ml.data_transformers.numpy_data_transformer.NumpyDataTransformer",
"dtype_for_predict": null
}
}
/predict
Use for call predict in model.
HTTP's methods: POST
Requests body data:
{
"data_for_predict": [
"input_data_for_obj_1",
"input_data_for_obj_2",
"input_data_for_obj_3"
]
}
Key data_for_predict
is default key for inner data. In config by default set param auto_detect_predict_params
is True.
This param activate analyze model predict method, get arguments from and generate API by params.
If auto_detect_predict_params
found params, he changes data_for_predict
to finding keys and change API docs.
Example for scikit-learn
models:
{
"X": [
"input_data_for_obj_1",
"input_data_for_obj_2",
"input_data_for_obj_3"
]
}
input_data_for_obj_1
maybe any valid JSON data. These data are run through data transformers from config data_transformer_for_predict
.
By default, this param is mlup.ml.data_transformers.numpy_data_transformer.NumpyDataTransformer
.
Return JSON:
{
"predict_result": [
"predict_result_for_obj_1",
"predict_result_for_obj_2",
"predict_result_for_obj_3"
]
}
predict_result_for_obj_1
will be valid JSON data. These data, after being predicted by the model, are run through data transformers from config data_transformer_for_predicted
.
By default, this param is mlup.ml.data_transformers.numpy_data_transformer.NumpyDataTransformer
.
Validation
This method have validation for inner request data. It's making from config columns
and flag column_validation
.
Web application modes
See Web app architectures for more details.
Web application have three works modes:
directly_to_predict
- is Default. User request send directly to model.worker_and_queue
- ml model starts in thread worker and take data for predict from queue. Web application new user requests send to queue and wait result from results queue.batching
- ml model start in thread worker and take data for predict from queue. But not for one request, but combines data from several requests and sends it in one large array to the model. Web application new user requests send to queue and wait result from results queue.
This param is naming mode
.
import mlup
from mlup.ml.empty import EmptyModel
from mlup import constants
up = mlup.UP(
ml_model=EmptyModel(),
conf=mlup.Config(
mode=constants.WebAppArchitecture.worker_and_queue,
)
)
If your model is light, or you hae many CPU/GPU/RAM, you can run many processes:
import mlup
from mlup.ml.empty import EmptyModel
from mlup import constants
up = mlup.UP(
ml_model=EmptyModel(),
conf=mlup.Config(
mode=constants.WebAppArchitecture.worker_and_queue,
uvicorn_kwargs={'workers': 4},
)
)
Metrics
MLup PyPi download statistics: https://pepy.tech/project/pymlup
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