# method signature for jacobian func in scipy leastsq

Can anyone provide an example of providing a jacobian to a leastsq function in scipy? ( http://docs.scipy.org/doc/scipy/reference/generated/scipy.optimize.leastsq.html#scipy.optimize.leastsq ) I can't figure out the method signature they want - they say it should be a function, yet it's very hard to figure out what input parameters in what order this function should accept. Thanks!

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Here's the exponential decay fitting that I got to work with this:

``````import numpy as np
from scipy.optimize import leastsq

def f(var,xs):
return var[0]*np.exp(-var[1]*xs)+var[2]

def func(var, xs, ys):
return f(var,xs) - ys

def dfunc(var,xs,ys):
v = np.exp(-var[1]*xs)
return [v,-var[0]*xs*v,np.ones(len(xs))]

xs = np.linspace(0,4,50)
ys = f([2.5,1.3,0.5],xs)
yn = ys + 0.2*np.random.normal(size=len(xs))
fit = leastsq(func,[10,10,10],args=(xs,yn),Dfun=dfunc,col_deriv=1)
``````

If I wanted to use `col_deriv=0`, I think that I would have to basically take the transpose of what I return with dfunc. You're quite right though: the documentation on this isn't so great.

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It does work, yet ironically still fails on the example from my previous question :P okay, i probably should pick some other method –  George Karpenkov Oct 19 '10 at 6:43
because you p0 had the wrong sign... –  tillsten Oct 20 '10 at 1:44
Yes, as tillsten said. Basically, it's the difference between fitting for exponential decay and exponential growth. That's a big difference. I think that you'll have to try some other method that uses the second derivative to have a chance of solving when you guess the wrong sign to start. It might need an additional momentum term of something like that too. –  Justin Peel Oct 20 '10 at 1:56
right, i failed really bad. Thanks, that was awesome! –  George Karpenkov Oct 20 '10 at 5:11
Thanks, Justin. 2 Years later, and still helping people. –  Geoff Oct 24 '12 at 23:18