numpy.ma.MaskedArray.var

MaskedArray.var(axis=None, dtype=None, out=None, ddof=0)

Compute the variance along the specified axis.

Returns the variance of the array elements, a measure of the spread of a distribution. The variance is computed for the flattened array by default, otherwise over the specified axis.

Parameters:

a : array_like

Array containing numbers whose variance is desired. If a is not an array, a conversion is attempted.

axis : int, optional

Axis along which the variance is computed. The default is to compute the variance of the flattened array.

dtype : dtype, optional

Type to use in computing the variance. For arrays of integer type the default is float32; for arrays of float types it is the same as the array type.

out : ndarray, optional

Alternative output array in which to place the result. It must have the same shape as the expected output but the type is cast if necessary.

ddof : int, optional

“Delta Degrees of Freedom”: the divisor used in calculation is N - ddof, where N represents the number of elements. By default ddof is zero.

Returns:

variance : ndarray, see dtype parameter above

If out=None, returns a new array containing the variance; otherwise a reference to the output array is returned.

See also

std
Standard deviation
mean
Average

Notes

The variance is the average of the squared deviations from the mean, i.e., var = mean(abs(x - x.mean())**2).

The mean is normally calculated as x.sum() / N, where N = len(x). If, however, ddof is specified, the divisor N - ddof is used instead. In standard statistical practice, ddof=1 provides an unbiased estimator of the variance of the infinite population. ddof=0 provides a maximum likelihood estimate of the variance for normally distributed variables.

Note that for complex numbers, the absolute value is taken before squaring, so that the result is always real and nonnegative.

Examples

>>> a = np.array([[1,2],[3,4]])
>>> np.var(a)
1.25
>>> np.var(a,0)
array([ 1.,  1.])
>>> np.var(a,1)
array([ 0.25,  0.25])

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