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20. weight functions

1. 

   32-digit values of the first 100 recurrence coefficients for the Freud weight function with exponent 8

   2016-11-29 13:23:13 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7R78C5Q

   32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [-Inf,Inf], mu=0, nu=8

   https://purr.purdue.edu/publications/1489

2. 

   32-digit values of the first 100 recurrence coefficients for the Freud weight function with exponent 4

   2016-11-29 13:21:13 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7VX0DHD

   32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [-Inf,Inf], mu=0, nu=4

   https://purr.purdue.edu/publications/1487

3. 

   32-digit values of the first 100 recurrence coefficients for the Freud weight function with exponent 10

   2016-11-29 13:24:20 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R74F1NPK

   32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [-Inf,Inf], mu=0, nu=10

   https://purr.purdue.edu/publications/1486

4. 

   32-digit values of the first 100 recurrence coefficients for the Freud weight function with exponent 6

   2016-11-29 13:22:11 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R70P0X0Q

   32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [-Inf,Inf], mu=0, nu=6

   https://purr.purdue.edu/publications/1488

5. 

   32-digit values of the first 100 recurrence coefficients for the Theodorus weight function

   2016-11-29 13:54:00 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7CZ354Q

   32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^(1/2)/(exp(x)-1) on [0,Inf]

   https://purr.purdue.edu/publications/1472

6. 

   32-digit values of the first 100 recurrence coefficients for the Fermi-Dirac weight function

   2016-11-29 13:32:22 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7HQ3WW3

   32-digit values of the first 100 recurrence coefficients for the weight function w(x)=[1/(exp(x)+1)]^r on [0,Inf], r=1

   https://purr.purdue.edu/publications/1481

7. 

   POEXPINT: Polynomials orthogonal with respect to the exponential integral

   2014-04-28 14:27:31 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7X34VD9

   Matlab scripts for computing orthogonal polynomials whose weight function involves an exponential integral

   https://purr.purdue.edu/publications/1587

8. 

   NEUTRAL: Neutralizing nearby singularities in numerical quadrature

   2014-04-23 08:27:11 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R75H7D6P

   Matlab routines for neutralizing nearby singularities in numerical quadrature

   https://purr.purdue.edu/publications/1579

9. 

   RMOP: Repeated modifications of orthogonal polynomials

   2014-04-23 08:25:49 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7F18WNB

   Matlab routines and data sets that compute repeated modifications of orthogonal polynomials

   https://purr.purdue.edu/publications/1577

10. 

    SRJAC: Sub-range Jacobi polynomials

    2014-04-23 08:24:06 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7JS9NCR

    Matlab routines for computing sub-range Jacobi polynomials within the sub interval of [-1, 1]

    https://purr.purdue.edu/publications/1576

11. 

    GQLOG: Matlab routines for computing Gauss Quadrature rules with logarithmic weight functions

    2014-04-23 08:28:47 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R72R3PMB

    Matlab routines for computing Gauss Quadrature rules with logarithmic weight functions

    https://purr.purdue.edu/publications/1571

12. 

    OWF: Matlab programs for computing orthogonal polynomials with respect to densely oscillating and exponentially decaying weight functions

    2014-04-23 08:26:04 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7NK3BZ7

    Software (in Matlab) is developed for computing variable-precision recurrence coefficients for orthogonal polynomials with respect to densely oscillating and exponentially decaying weight functions

    https://purr.purdue.edu/publications/1562

13. 

    NUMINT: Numerical Integration over the square

    2014-04-23 08:26:33 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7PK0D31

    Matlab routines for computing numerical integration over the square

    https://purr.purdue.edu/publications/1575

14. 

    28-digit values of the recursion coefficients relative to the Airy weight function w(x)= frac{2^{2/3}pi}{3^{5/6}Gamma(2/3)} *x^{-2/3}exp(-x)Ai((3x/2)^{2/3}) on [0,infty]

    2014-03-21 12:01:01 | Datasets | Contributor(s): Walter Gautschi | doi:10.4231/R7QN64N5

    28-digit values of the recursion coefficients for orthogonal polynomials relative to the Airy weight function w(x)= frac{2^{2/3}pi}{3^{5/6}Gamma(2/3)} *x^{-2/3}exp(-x)Ai((3x/2)^{2/3}) on [0,infty]

    https://purr.purdue.edu/publications/1474