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September 21, 2014 libcerf (D sources) | ||||
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Self-contained numeric library that provides an efficient and accurate implementation of complex error functions, along with Dawson, Faddeeva, and Voigt functions. https://github.com/9il/libcerf |
September 21, 2014 [OT] Re: libcerf (D sources) | ||||
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Posted in reply to Ilya Yaroshenko | On Sunday, 21 September 2014 at 16:12:08 UTC, Ilya Yaroshenko wrote:
> Self-contained numeric library that provides an efficient and accurate implementation of complex error functions, along with Dawson, Faddeeva, and Voigt functions.
>
> https://github.com/9il/libcerf
The error function is used for Gaussian integrals, where should we use the Dawson, Faddeeva, and Voigt functions? Just curious.
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September 21, 2014 Re: [OT] Re: libcerf (D sources) | ||||
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Posted in reply to ponce | Computation of complex error functions based on Faddeeva function. See: http://ab-initio.mit.edu/wiki/index.php/Faddeeva_Package I need this functions to compute integrals for new numeric methods in statistics. On Sunday, 21 September 2014 at 16:14:30 UTC, ponce wrote: > On Sunday, 21 September 2014 at 16:12:08 UTC, Ilya Yaroshenko wrote: >> Self-contained numeric library that provides an efficient and accurate implementation of complex error functions, along with Dawson, Faddeeva, and Voigt functions. >> >> https://github.com/9il/libcerf > > The error function is used for Gaussian integrals, where should we use the Dawson, Faddeeva, and Voigt functions? Just curious. |
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