A package for Script Table Operator that applies set theory to machine learning in Python.
Project description
tdstone2
Package
Overview
The tdstone2
package is designed to simplify the operationalization of Python code for data analysis and machine learning on the Teradata Vantage system. It leverages the massive parallel processing architecture of Teradata Vantage to run hundreds of Python scripts across hundreds of data partitions. This approach enables the industrialization, lineage, and reproducibility of millions of custom models while minimizing data movement.
Features
- Hyper-segmented Model Deployment: Deploy scikit-learn pipelines or custom Python functions across segmented datasets for parallel execution.
- Model Lineage and Reproducibility: Automatically track the lineage of models and ensure reproducibility across different data partitions.
- Efficient Data Handling: Minimize data movement by leveraging Teradata's parallel processing capabilities to execute models directly on the database.
Installation
To install tdstone2
, use pip:
pip install tdstone2
Ensure you have access to a Teradata Vantage system and the necessary credentials to connect and execute queries.
Usage
Hyper-segmented Model Deployment
3.1 Engineering of the Scikit-learn Classifier Pipeline
from sklearn.preprocessing import StandardScaler
from sklearn.ensemble import RandomForestClassifier
# Example usage
steps_classifier = [
('scaler', StandardScaler()),
('classifier', RandomForestClassifier(max_depth=5, n_estimators=95))
]
3.2 Deployment of the Scikit-learn Pipeline
from tdstone2.tdshypermodel import HyperModel
from tdstone2.tdstone import TDStone
sto = TDStone(schema_name=Param['database'], SEARCHUIFDBPATH=Param['user'])
model_parameters = {
"target": 'Y2',
"column_categorical": ['flag', 'Y2'],
"column_names_X": ['X1', 'X2', 'X3', 'X4', 'X5', 'X6', 'X7', 'X8', 'X9', 'flag']
}
model = HyperModel(
tdstone=sto,
metadata={'project': 'test'},
skl_pipeline_steps=steps_classifier,
model_parameters=model_parameters,
dataset=tdml.in_schema(Param['database'], 'dataset_00'),
id_row='ID',
id_partition='Partition_ID',
id_fold='FOLD',
fold_training='train',
convert_to_onnx=False, # <-- set to True if you want to get the ONNX version of your trained models
store_pickle=True, # <-- to store your full object in pickle format
)
# Model deployment outputs
3.3 Local Execution for Validation/Debugging
exec(code_and_data['code'])
local_model = MyModel(**code_and_data['arguments'])
df_local = code_and_data['data']
df_local['flag'] = df_local['flag'].astype('category')
df_local['Y2'] = df_local['Y2'].astype('category')
local_model.fit(code_and_data['data'])
local_model.score(code_and_data['data'])
Execution of the Deployed Hypermodel
4.1 Models Training
model.train()
# Outputs: Trained models are inserted into the specified repository
This training operation launches as many training there are data partitions identified by the id_partition column list, and belonging to the training FOLD.
4.2 Model Scoring
model.score()
# Outputs: Model scores are inserted into the specified scores table
This runs the scoring on all the data, using the latest model available for the corresponding data partition.
Reuse of the Hyper-segmented Model
2. Retrieve the Hyper-segmented Model
sto = TDStone(schema_name=Param['database'], SEARCHUIFDBPATH=Param['user'])
sto.list_hyper_models()
# Outputs: List of hyper models with their metadata
id = '0286d259-ecde-4cd0-ae4a-bcb3191383d1' # Example model ID
existing_model = HyperModel(tdstone=sto)
existing_model.download(id=id)
Note that the model is not actually downloaded, but this just establish a connection between the model hosted in Vantage and the python client.
3. Update the Training
existing_model.train()
# Outputs: Updated trained models are inserted into the specified repository
4. Update the Scoring
existing_model.score()
# Outputs: Updated scores are inserted into the specified scores table
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