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machine-failure-predictor-mlops-demo / train.py

pgurazada1

Update train.py

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	import joblib

	from sklearn.datasets import fetch_openml

	from sklearn.preprocessing import StandardScaler, OneHotEncoder
	from sklearn.compose import make_column_transformer

	from sklearn.pipeline import make_pipeline

	from sklearn.model_selection import train_test_split, RandomizedSearchCV

	from sklearn.linear_model import LogisticRegression
	from sklearn.metrics import accuracy_score, classification_report

	dataset = fetch_openml(data_id=42890, as_frame=True, parser="auto")

	data_df = dataset.data

	target = 'Machine failure'
	numeric_features = [
	'Air temperature [K]',
	'Process temperature [K]',
	'Rotational speed [rpm]',
	'Torque [Nm]',
	'Tool wear [min]'
	]
	categorical_features = ['Type']

	print("Creating Data Subsets")

	X = data_df[numeric_features + categorical_features]
	y = data_df[target]

	Xtrain, Xtest, ytrain, ytest = train_test_split(
	X, y,
	test_size=0.2,
	random_state=42
	)

	preprocessor = make_column_transformer(
	(StandardScaler(), numeric_features),
	(OneHotEncoder(handle_unknown='ignore'), categorical_features)
	)

	model_logistic_regression = LogisticRegression(n_jobs=-1)

	print("Estimating the Best Model Pipeline")

	model_pipeline = make_pipeline(
	preprocessor,
	model_logistic_regression
	)

	param_distribution = {
	"logisticregression__C": [0.001, 0.01, 0.1, 0.5, 1, 5, 10, 15]
	}

	rand_search_cv = RandomizedSearchCV(
	model_pipeline,
	param_distribution,
	n_iter=3,
	cv=3,
	random_state=42
	)

	rand_search_cv.fit(Xtrain, ytrain)

	print("Logging Metrics")
	print(f"Accuracy: {rand_search_cv.best_score_}")
	print(f"Best parameters: {rand_search_cv.best_params_}")

	print("Serializing the Best Model")

	saved_model_path = "model.joblib"

	joblib.dump(rand_search_cv.best_estimator_, saved_model_path)