I am looking for a function in Numpy or Scipy (or any rigorous Python library) that will give me the cumulative normal distribution function in Python. This is for Black Scholes option pricing. I can program it myself but it is a (decent) approximation and I'd like to test if there's something (even) better as as I still get a few decimals of error which I'd like to reduce?
Take the 2minute tour
×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.
Here's an example:
If you need the inverse CDF:



Adapted from here http://mail.python.org/pipermail/pythonlist/2000June/039873.html



To build upon Unknown's example, the Python equivalent of the function normdist() implemented in a lot of libraries would be:



It may be too late to answer the question but since Google still leads people here, I decide to write my solution here. That is, since Python 2.7, the math library has integrated the error function math.erf(x) The erf() function can be used to compute traditional statistical functions such as the cumulative standard normal distribution:
Ref: 


As Google gives this answer for the search netlogo pdf, here's the netlogo version of the above python code ;; Normal distribution cumulative density function toreport normcdf [x mu sigma] let t x  mu let y 0.5 * erfcc [  t / ( sigma * sqrt 2.0)] if ( y > 1.0 ) [ set y 1.0 ] report y end ;; Normal distribution probability density function toreport normpdf [x mu sigma] let u = (x  mu) / abs sigma let y = 1 / ( sqrt [2 * pi] * abs sigma ) * exp (  u * u / 2.0) report y end ;; Complementary error function toreport erfcc [x] let z abs x let t 1.0 / (1.0 + 0.5 * z) let r t * exp (  z * z 1.26551223 + t * (1.00002368 + t * (0.37409196 + t * (0.09678418 + t * (0.18628806 + t * (.27886807 + t * (1.13520398 +t * (1.48851587 +t * (0.82215223 + t * .17087277 ))))))))) ifelse (x >= 0) [ report r ] [report 2.0  r] end 

