scipy.special.btdtria¶
-
scipy.special.
btdtria
(p, b, x) = <ufunc 'btdtria'>¶ Inverse of
btdtr
with respect to a.This is the inverse of the beta cumulative distribution function,
btdtr
, considered as a function of a, returning the value of a for which btdtr(a, b, x) = p, or\[p = \int_0^x \frac{\Gamma(a + b)}{\Gamma(a)\Gamma(b)} t^{a-1} (1-t)^{b-1}\,dt\]Parameters: p : array_like
Cumulative probability, in [0, 1].
b : array_like
Shape parameter (b > 0).
x : array_like
The quantile, in [0, 1].
Returns: a : ndarray
The value of the shape parameter a such that btdtr(a, b, x) = p.
See also
Notes
Wrapper for the CDFLIB [R398] Fortran routine cdfbet.
The cumulative distribution function p is computed using a routine by DiDinato and Morris [R399]. Computation of a involves a search for a value that produces the desired value of p. The search relies on the monotonicity of p with a.
References
[R398] (1, 2) Barry Brown, James Lovato, and Kathy Russell, CDFLIB: Library of Fortran Routines for Cumulative Distribution Functions, Inverses, and Other Parameters. [R399] (1, 2) DiDinato, A. R. and Morris, A. H., Algorithm 708: Significant Digit Computation of the Incomplete Beta Function Ratios. ACM Trans. Math. Softw. 18 (1993), 360-373.