scipy.special.log_ndtr#
- scipy.special.log_ndtr(x, out=None) = <ufunc 'log_ndtr'>#
Logarithm of Gaussian cumulative distribution function.
Returns the log of the area under the standard Gaussian probability density function, integrated from minus infinity to x:
log(1/sqrt(2*pi) * integral(exp(-t**2 / 2), t=-inf..x))
- Parameters
- xarray_like, real or complex
Argument
- outndarray, optional
Optional output array for the function results
- Returns
- scalar or ndarray
The value of the log of the normal CDF evaluated at x
See also
Examples
>>> from scipy.special import log_ndtr, ndtr
The benefit of
log_ndtr(x)
over the naive implementationnp.log(ndtr(x))
is most evident with moderate to large positive values ofx
:>>> x = np.array([6, 7, 9, 12, 15, 25]) >>> log_ndtr(x) array([-9.86587646e-010, -1.27981254e-012, -1.12858841e-019, -1.77648211e-033, -3.67096620e-051, -3.05669671e-138])
The results of the naive calculation for the moderate
x
values have only 5 or 6 correct significant digits. For values ofx
greater than approximately 8.3, the naive expression returns 0:>>> np.log(ndtr(x)) array([-9.86587701e-10, -1.27986510e-12, 0.00000000e+00, 0.00000000e+00, 0.00000000e+00, 0.00000000e+00])