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This question is kind of follow up to my previous question here GSL integration behaves strange

Because of the scaling x -> (1-t)/t causing undesired answers in the infinite integration method gsl_integration_qagi I am now resorted to using the integration over a finite support. What I now do is this:

I have a (discrete) series S of real numbers, which I convolute (each) with a given exponential function

    exp(-t/T) ... T = decay constant

I choose the support for integration to be (min(S) - 10*T, max(S) + 10*T) so that I cover most of the "significant" contribution from the function.

Integrating over this support using gsl_integration_qag takes over a few seconds, while gsl_integration_qagi` (infinite support) hardly a few milliseconds but produces wrong results. Does anyone know a reason?

The same gsl_integration_qag works well if the convolution is Gaussian instead of exponential.

Thanks in advance, Nikhil

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Can you post a test code so I can take a look? –  Vinicius Miranda Sep 25 '13 at 3:10
And remember: the qagi was very fast because it was missing the function support entirely (so the integrator got a very fast convergence to zero). –  Vinicius Miranda Sep 25 '13 at 3:16
I also think that you should integrate each S convoluted separately, because if they are separated by a significant interval - qag will have trouble to converge (two exponential separated by a large zero interval)...but I need to see your code to check –  Vinicius Miranda Sep 25 '13 at 3:19
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