ium_434704/mlflow_exp.py

import sys

import pandas as pd
import numpy as np
import tensorflow as tf
import os.path

import mlflow

from tensorflow import keras
from tensorflow.keras import layers
from tensorflow.keras.layers.experimental import preprocessing


with mlflow.start_run():

    arguments = sys.argv[1:]

    verbose = int(arguments[0])
    epochs = int(arguments[1])

    mlflow.log_param("verbose", verbose)
    mlflow.log_param("epochs", epochs)
    pd.set_option("display.max_columns", None)

    # Wczytanie danych
    train_data = pd.read_csv("./MoviesOnStreamingPlatforms_updated.train")

    # Stworzenie modelu 
    columns_to_use = ['Year', 'Runtime', 'Netflix']
    train_X = tf.convert_to_tensor(train_data[columns_to_use])
    train_Y = tf.convert_to_tensor(train_data[["IMDb"]])

    normalizer = preprocessing.Normalization(input_shape=[3,])
    normalizer.adapt(train_X)

    model = keras.Sequential([
        keras.Input(shape=(len(columns_to_use),)),
        normalizer,
        layers.Dense(30, activation='relu'),
        layers.Dense(10, activation='relu'),
        layers.Dense(25, activation='relu'),
        layers.Dense(1)
    ])

    model.compile(loss='mean_absolute_error',
                    optimizer=tf.keras.optimizers.Adam(0.001),
                    metrics=[tf.keras.metrics.RootMeanSquaredError()])

    model.fit(train_X, train_Y, verbose=verbose, epochs=epochs)

    model.save('linear_regression.h5')

    # Evaluation

    test_data = pd.read_csv("./MoviesOnStreamingPlatforms_updated.test")

    columns_to_use = ['Year', 'Runtime', 'Netflix']
    test_X = tf.convert_to_tensor(test_data[columns_to_use])
    test_Y = tf.convert_to_tensor(test_data[["IMDb"]])

    scores = model.evaluate(x=test_X, 
                        y=test_Y)
    
    mlflow.log_metric("RMSE", scores[1])
Adding mlflow 2021-05-15 18:46:56 +02:00			`import sys`

			`import pandas as pd`
			`import numpy as np`
			`import tensorflow as tf`
			`import os.path`

			`import mlflow`

			`from tensorflow import keras`
			`from tensorflow.keras import layers`
			`from tensorflow.keras.layers.experimental import preprocessing`


			`with mlflow.start_run():`

			`arguments = sys.argv[1:]`

			`verbose = int(arguments[0])`
			`epochs = int(arguments[1])`

			`mlflow.log_param("verbose", verbose)`
			`mlflow.log_param("epochs", epochs)`
			`pd.set_option("display.max_columns", None)`

			`# Wczytanie danych`
			`train_data = pd.read_csv("./MoviesOnStreamingPlatforms_updated.train")`

			`# Stworzenie modelu`
			`columns_to_use = ['Year', 'Runtime', 'Netflix']`
			`train_X = tf.convert_to_tensor(train_data[columns_to_use])`
			`train_Y = tf.convert_to_tensor(train_data[["IMDb"]])`

			`normalizer = preprocessing.Normalization(input_shape=[3,])`
			`normalizer.adapt(train_X)`

			`model = keras.Sequential([`
			`keras.Input(shape=(len(columns_to_use),)),`
			`normalizer,`
			`layers.Dense(30, activation='relu'),`
			`layers.Dense(10, activation='relu'),`
			`layers.Dense(25, activation='relu'),`
			`layers.Dense(1)`
			`])`

			`model.compile(loss='mean_absolute_error',`
			`optimizer=tf.keras.optimizers.Adam(0.001),`
			`metrics=[tf.keras.metrics.RootMeanSquaredError()])`

			`model.fit(train_X, train_Y, verbose=verbose, epochs=epochs)`

			`model.save('linear_regression.h5')`

			`# Evaluation`

			`test_data = pd.read_csv("./MoviesOnStreamingPlatforms_updated.test")`

			`columns_to_use = ['Year', 'Runtime', 'Netflix']`
			`test_X = tf.convert_to_tensor(test_data[columns_to_use])`
			`test_Y = tf.convert_to_tensor(test_data[["IMDb"]])`

			`scores = model.evaluate(x=test_X,`
			`y=test_Y)`

			`mlflow.log_metric("RMSE", scores[1])`