.Alternate to using for loop or symsum for the summation ∑(const)^n/(n*n!) ?

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Ramaprasad Kulkarni
Ramaprasad Kulkarni el 26 de Jun. de 2013
Dear all,
Is there a more computationally efficient way compared to using for loop or symsum (from Symbolic math toolbox) to compute:
∑(const)^n/(n*n!)
const is some constant value, n is the range of limit varying from 1 to infinity (or some high value like 200 for approximating the sum).
-- Thanks, Ram.
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Sean de Wolski
Sean de Wolski el 26 de Jun. de 2013
Editada: Sean de Wolski el 26 de Jun. de 2013
Why not symsum? You're going to need it for factorial greater than 170 anyway:
factorial(171)
Ramaprasad Kulkarni
Ramaprasad Kulkarni el 27 de Jun. de 2013
I am using symsum and it is computationally expensive. It takes a lot of time (like half an hour for my program). I am not using 'for loop' anymore which I assume would have been worse computationally.

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Roger Stafford
Roger Stafford el 26 de Jun. de 2013
Your sum is equal to the integral
int('(exp(x)-1)/x','x',0,const)
so you could do numerical integration of this rather than summing the infinite series. That integrand is actually well-behaved in the vicinity of x = 0, but computing it might give you some problems, so you could substitute a Taylor series approximation very near x = 0.
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Ramaprasad Kulkarni
Ramaprasad Kulkarni el 27 de Jun. de 2013
Well, I used symsum with 'range 1 to 200' which runs much faster without much difference in results compared to the 'range 1 to infinity' (which I was using earlier).
-- Thanks for your replies.

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