GaussQuadIntegration: Non-adaptive Gaussian quadrature for numeric integraton
This package provides means for numeric integration with a Gaussian quadrature. Precisely, it incorporates non-adaptive approximation for definite integrals using 128-, 256-, 512- and 1024-point Gaussian quadrature rule. For example, to find the approximation of an integral with a 256-point rule:
╭ a │ f(x) dx = nIntegrate256 f a b ╯ b
> nIntegrate256 (\x -> x^999) 0 1 9.999999999999887e-4
The type of a function here is not confined only by Double -> Double, indeed one can use any instance of Fractional:
> nIntegrate256 (\x -> x^999 :: Fixed Prec50) 0 1 0.00100000000000000000000000000000000000000000000009
128 and 256 rules are given with the accuracy of 50 digits, 512 --- with 35 digits (roughly quad), all of them were computed by myself. 1024-point rule was taken from the Gauss-Legendre Quadrature C/C++ library by Pavel Holoborodko (http://www.holoborodko.com/pavel/numerical-methods/numerical-integration/) and goes with the accuracy of 25 decimal digits (fixed point).
Downloads
- GaussQuadIntegration-0.1.tar.gz [browse] (Cabal source package)
- Package description (as included in the package)
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Versions [RSS] | 0.1 |
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Dependencies | base (>=3 && <6) [details] |
License | BSD-3-Clause |
Author | Grigory Sarnitsky <sargrigory@ya.ru> |
Maintainer | Grigory Sarnitsky <sargrigory@ya.ru> |
Category | Math |
Uploaded | by GrigorySarnitsky at 2011-09-15T14:57:26Z |
Distributions | NixOS:0.1 |
Reverse Dependencies | 1 direct, 0 indirect [details] |
Downloads | 1589 total (6 in the last 30 days) |
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