org.apache.spark.mllib.classification

LogisticRegressionWithSGD

object LogisticRegressionWithSGD extends Serializable

Top-level methods for calling Logistic Regression using Stochastic Gradient Descent. NOTE: Labels used in Logistic Regression should be {0, 1}

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  19. def train(input: RDD[LabeledPoint], numIterations: Int): LogisticRegressionModel

    Train a logistic regression model given an RDD of (label, features) pairs.

    Train a logistic regression model given an RDD of (label, features) pairs. We run a fixed number of iterations of gradient descent using a step size of 1.0. We use the entire data set to update the gradient in each iteration. NOTE: Labels used in Logistic Regression should be {0, 1}

    input

    RDD of (label, array of features) pairs.

    numIterations

    Number of iterations of gradient descent to run.

    returns

    a LogisticRegressionModel which has the weights and offset from training.

  20. def train(input: RDD[LabeledPoint], numIterations: Int, stepSize: Double): LogisticRegressionModel

    Train a logistic regression model given an RDD of (label, features) pairs.

    Train a logistic regression model given an RDD of (label, features) pairs. We run a fixed number of iterations of gradient descent using the specified step size. We use the entire data set to update the gradient in each iteration. NOTE: Labels used in Logistic Regression should be {0, 1}

    input

    RDD of (label, array of features) pairs.

    numIterations

    Number of iterations of gradient descent to run.

    stepSize

    Step size to be used for each iteration of Gradient Descent.

    returns

    a LogisticRegressionModel which has the weights and offset from training.

  21. def train(input: RDD[LabeledPoint], numIterations: Int, stepSize: Double, miniBatchFraction: Double): LogisticRegressionModel

    Train a logistic regression model given an RDD of (label, features) pairs.

    Train a logistic regression model given an RDD of (label, features) pairs. We run a fixed number of iterations of gradient descent using the specified step size. Each iteration uses miniBatchFraction fraction of the data to calculate the gradient. NOTE: Labels used in Logistic Regression should be {0, 1}

    input

    RDD of (label, array of features) pairs.

    numIterations

    Number of iterations of gradient descent to run.

    stepSize

    Step size to be used for each iteration of gradient descent.

    miniBatchFraction

    Fraction of data to be used per iteration.

  22. def train(input: RDD[LabeledPoint], numIterations: Int, stepSize: Double, miniBatchFraction: Double, initialWeights: Vector): LogisticRegressionModel

    Train a logistic regression model given an RDD of (label, features) pairs.

    Train a logistic regression model given an RDD of (label, features) pairs. We run a fixed number of iterations of gradient descent using the specified step size. Each iteration uses miniBatchFraction fraction of the data to calculate the gradient. The weights used in gradient descent are initialized using the initial weights provided. NOTE: Labels used in Logistic Regression should be {0, 1}

    input

    RDD of (label, array of features) pairs.

    numIterations

    Number of iterations of gradient descent to run.

    stepSize

    Step size to be used for each iteration of gradient descent.

    miniBatchFraction

    Fraction of data to be used per iteration.

    initialWeights

    Initial set of weights to be used. Array should be equal in size to the number of features in the data.

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