View Source Scholar.Preprocessing.MinMaxScaler (Scholar v0.3.1)

Scales a tensor by dividing each sample in batch by maximum absolute value in the batch

Centering and scaling happen independently on each feature by computing the relevant statistics on the samples in the training set. Maximum absolute value then is stored to be used on new samples.

Summary

Functions

fit(tensor, opts \\ [])

Compute the maximum absolute value of samples to be used for later scaling.

fit_transform(tensor, opts \\ [])

Standardizes the tensor by removing the mean and scaling to unit variance.

transform(arg1, tensor)

Performs the standardization of the tensor using a fitted scaler.

Functions

Link to this function

fit(tensor, opts \\ [])

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Compute the maximum absolute value of samples to be used for later scaling.

Options

  • :axes - Axes to calculate the max absolute value over. By default the absolute values are calculated between the whole tensors.

  • :min_bound - The lower boundary of the desired range of transformed data. The default value is 0.

  • :max_bound - The upper boundary of the desired range of transformed data. The default value is 1.

Return values

Returns a struct with the following parameters:

  • min_data: the calculated minimum value of samples.

  • max_data: the calculated maximum value of samples.

  • min_bound: The lower boundary of the desired range of transformed data.

  • max_bound: The upper boundary of the desired range of transformed data.

Examples 

iex> t = Nx.tensor([[1, -1, 2], [2, 0, 0], [0, 1, -1]])
iex> Scholar.Preprocessing.MinMaxScaler.fit(t)
%Scholar.Preprocessing.MinMaxScaler{
  min_data: Nx.tensor(
    [
      [-1]
    ]
  ),
  max_data: Nx.tensor(
    [
      [2]
    ]
  ),
  min_bound: Nx.tensor(
    0
  ),
  max_bound: Nx.tensor(
    1
  )
}
Link to this function

fit_transform(tensor, opts \\ [])

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Standardizes the tensor by removing the mean and scaling to unit variance.

Examples 

iex> t = Nx.tensor([[1, -1, 2], [2, 0, 0], [0, 1, -1]])
iex> Scholar.Preprocessing.MinMaxScaler.fit_transform(t)
#Nx.Tensor<
  f32[3][3]
  [
    [0.6666666865348816, 0.0, 1.0],
    [1.0, 0.3333333432674408, 0.3333333432674408],
    [0.3333333432674408, 0.6666666865348816, 0.0]
  ]
>
Link to this function

transform(arg1, tensor)

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Performs the standardization of the tensor using a fitted scaler.

Examples 

iex> t = Nx.tensor([[1, -1, 2], [2, 0, 0], [0, 1, -1]])
iex> scaler = Scholar.Preprocessing.MinMaxScaler.fit(t)
iex> Scholar.Preprocessing.MinMaxScaler.transform(scaler, t)
#Nx.Tensor<
  f32[3][3]
  [
    [0.6666666865348816, 0.0, 1.0],
    [1.0, 0.3333333432674408, 0.3333333432674408],
    [0.3333333432674408, 0.6666666865348816, 0.0]
  ]
>

iex> t = Nx.tensor([[1, -1, 2], [2, 0, 0], [0, 1, -1]])
iex> scaler = Scholar.Preprocessing.MinMaxScaler.fit(t)
iex> new_tensor = Nx.tensor([[0.5, 1, -1], [0.3, 0.8, -1.6]])
iex> Scholar.Preprocessing.MinMaxScaler.transform(scaler, new_tensor)
#Nx.Tensor<
  f32[2][3]
  [
    [0.5, 0.6666666865348816, 0.0],
    [0.43333330750465393, 0.5999999642372131, -0.20000000298023224]
  ]
>