Appendix A, Alphabetical Summary of Routines
[ A ] [ B ] [ C ] [ D ] [ E ] [ F ] [ G ] [ H ] [ I ] [ L ] [ M ] [ N ] [ P ] [ R ] [ S ] [ T ] [ U ] [ W ]
A
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Evaluates the complex arc cosine. |
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Evaluates the real or complex arc hyperbolic cosine. |
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Evaluates the Airy function. |
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Evaluates the derivative of the Airy function. |
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Evaluates the Airy function of the second kind. |
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Evaluates the exponentially scaled derivative of the Airy function. |
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Evaluates the Kelvin function of the second kind, kei, of order zero. |
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Evaluates the Kelvin function of the second kind, kei, of order one. |
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Evaluates the derivative of the Kelvin function of the second kind, kei, of order zero. |
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Evaluates the Kelvin function of the second kind, ker, of order zero. |
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Evaluates the Kelvin function of the second kind, ker, of order one. |
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Evaluates the derivative of the Kelvin function of the second kind, ker, of order zero. |
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Evaluates the cumulative distribution function of the one‑sided Kolmogorov‑Smirnov goodness of fit D+ or D− test statistic based on continuous data for one sample. |
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Evaluates the cumulative distribution function of the Kolmogorov‑Smirnov goodness of fit D test statistic based on continuous data for two samples. |
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Evaluates the natural logarithm of the complete beta function for positive arguments. |
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Returns the logarithm of the absolute value of the gamma function and the sign of gamma. |
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Evaluates the logarithmic integral. |
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Evaluates the lognormal cumulative probability distribution function |
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Evaluates the real or complex function, ln ∣ |
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Evaluates the inverse of the lognormal cumulative probability distribution function. |
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Evaluates the lognormal probability density function. |
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Evaluates ln(x + 1) for real or complex x. |
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Retrieves single‑precision machine constants. |
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Evaluates the standard normal (Gaussian) cumulative distribution function. |
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Evaluates the normal probability density function. |
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Evaluates the inverse of the standard normal (Gaussian) cumulative distribution function. |
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Evaluates the complex arc sine. |
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Evaluates the sinh−1 arc sine x for real or complex x. |
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Evaluates the complex arc tangent. |
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Evaluates the complex arc tangent of a ratio. |
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Evaluates tanh−1 x for real or complex x. |
(B
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Evaluates the Kelvin function of the first kind, bei, of order zero. |
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Evaluates the Kelvin function of the first kind, bei, of order one. |
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Evaluates the derivative of the Kelvin function of the first kind, bei, of order zero. |
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Evaluates the Kelvin function of the first kind, ber, of order zero. |
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Evaluates the Kelvin function of the first kind, ber, of order one. |
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Evaluates the derivative of the Kelvin function of the first kind, ber, of order zero. |
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Evaluates the real or complex beta function, β(a,b). |
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Evaluates the incomplete beta function ratio. |
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Evaluates the beta cumulative distribution function. |
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Evaluates the inverse of the beta cumulative distribution function. |
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Evaluates the beta cumulative distribution function. |
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Evaluates the inverse of the beta cumulative distribution function. |
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This function evaluates the noncentral beta probability density function. |
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Evaluates the beta probability density function. |
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Evaluates the Airy function of the second kind. |
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Evaluates the derivative of the Airy function of the second kind. |
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Evaluates the exponentially scaled derivative of the Airy function of the second kind. |
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Evaluates the exponentially scaled Airy function of the second kind. |
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Evaluates the binomial cumulative distribution function. |
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Evaluates the binomial coefficient. |
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Evaluates the binomial probability density function. |
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Evaluates the bivariate normal cumulative distribution function. |
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Evaluates the modified Bessel function of the first kind of order zero. |
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Evaluates the exponentially scaled modified Bessel function of the first kind of order zero. |
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Evaluates the modified Bessel function of the first kind of order one. |
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Evaluates the exponentially scaled modified Bessel function of the first kind of order one. |
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Evaluates a sequence of exponentially scaled modified Bessel functions of the first kind with nonnegative real order and real positive arguments. |
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Evaluates a sequence of modified Bessel functions of the first kind with integer order and real or complex arguments. |
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Evaluates a sequence of modified Bessel functions of the first kind with real order and real positive arguments. |
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Evaluates the Bessel function of the first kind of order zero. |
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Evaluates the Bessel function of the first kind of order one. |
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Evaluates a sequence of Bessel functions of the first kind with integer order and real arguments. |
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Evaluates a sequence of Bessel functions of the first kind with real order and real positive arguments. |
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Evaluates the modified Bessel function of the second kind of order zero. |
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Evaluates the exponentially scaled modified Bessel function of the second kind of order zero. |
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Evaluates the modified Bessel function of the second kind of order one. |
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Evaluates the exponentially scaled modified Bessel function of the second kind of order one. |
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Evaluates a sequence of exponentially scaled modified Bessel functions of the second kind of fractional order. |
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Evaluates a sequence of modified Bessel functions of the second kind of fractional order. |
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Evaluates the Bessel function of the second kind of order zero. |
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Evaluates the Bessel function of the second kind of order one. |
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Evaluates a sequence of Bessel functions of the second kind with real nonnegative order and real positive arguments. |
C
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Evaluates the Airy function of the first kind for complex arguments. |
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Evaluates the derivative of the Airy function of the first kind for complex arguments. |
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Evaluates the argument of a complex number. |
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Evaluates the Airy function of the second kind for complex arguments. |
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Evaluates the derivative of the Airy function of the second kind for complex arguments. |
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Evaluates a sequence of modified Bessel functions of the first kind with real order and complex arguments. |
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Evaluates a sequence of Bessel functions of the first kind with real order and complex arguments. |
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Evaluates a sequence of Modified Bessel functions of the second kind with real order and complex arguments. |
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Evaluates the cube root. |
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Evaluates a sequence of Bessel functions of the second kind with real order and complex arguments. |
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Evaluates the complex scaled complemented error function. |
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Evaluates the hyperbolic cosine integral. |
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Evaluates the chi‑squared cumulative distribution function |
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Evaluates the inverse of the chi‑squared cumulative distribution function. |
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Evaluates the chi‑squared probability density function |
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Evaluates the cosine integral. |
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Evaluates a function closely related to the cosine integral. |
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Evaluates a function closely related to the hyperbolic cosine integral. |
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Evaluates the cosine for the argument in degrees. |
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Evaluates the cotangent. |
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Evaluates the N‑term Chebyshev series. |
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Evaluates the noncentral chi‑squared cumulative distribution function. |
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Evaluates the inverse of the noncentral chi‑squared cumulative function. |
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This function evaluates the noncentral chi‑squared probability density function. |
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Evaluates the Weierstrass P‑function in the lemniscat case for complex argument with unit period parallelogram. |
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Evaluate the first derivative of the Weierstrass P‑function in the lemniscatic case for complex argum with unit period parallelogram. |
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Evaluates the Weierstrass P‑function in the equianharmonic case for complex argument with unit period parallelogram. |
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Evaluates the first derivative of the Weierstrass P‑function in the equianharmonic case for complex argument with unit period parallelogram. |
D
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Evaluates Dawson function. |
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Retrieves double precision machine constants. |
E
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Evaluates the exponential integral for arguments greater than zero and the Cauchy principal value of the integral for arguments less than zero. |
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Evaluates the exponential integral for arguments greater than zero and the Cauchy principal value for arguments less than zero. |
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Evaluates the Jacobi elliptic function cn(x, m). |
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This function evaluates the Jacobi elliptic function dn(x, m). |
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Evaluates the Jacobi elliptic function sn(x, m). |
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Evaluates the complete elliptic integral of the second kind E(x). |
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Evaluates the complete elliptic integral of the kind K(x). |
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Evaluates an elementary integral from which inverse circular functions, logarithms and inverse hyperbolic functions can be computed. |
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Evaluates Carlson’s incomplete elliptic integral of the second kind RD(X, Y, Z). |
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Evaluates Carlson’s incomplete elliptic integral of the first kind RF(X, Y, Z). |
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Evaluates Carlson’s incomplete elliptic integral of the third kind RJ(X, Y, Z, RHO). |
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Evaluates the exponential integral of integer order for arguments greater than zero scaled by EXP(X). |
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Evaluates the error function. |
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Evaluates the complementary error function. |
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Evaluates the exponentially scaled complementary error function. |
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Evaluates the inverse complementary error function. |
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Evaluates the inverse error function. |
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Sets error handler default printer and stop actions. |
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Evaluates the exponential cumulative distribution function. |
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Evaluates the inverse of the exponential cumulative distribution function. |
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Evaluates the exponential probability density function. |
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Evaluates (ex – 1)/x for real or complex x. |
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Evaluates the extreme value cumulative distribution function. |
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Evaluates the inverse of the extreme value cumulative distribution function. |
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Evaluates the extreme value probability density function. |
F
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Evaluates the factorial of the argument. |
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Evaluates the F cumulative distribution function. |
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Evaluates the inverse of the F cumulative distribution function. |
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Noncentral F cumulative distribution function. |
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This function evaluates the inverse of the noncentral F cumulative distribution function (CDF). |
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This function evaluates the noncentral F cumulative distribution function (CDF). |
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Evaluates the F probability density function. |
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Evaluates the cosine Fresnel integral. |
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Evaluates the sine Fresnel integral. |
G
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Evaluates the gamma cumulative distribution function. |
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Evaluates the incomplete gamma function. |
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Evaluates the complementary incomplete gamma function. |
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This function evaluates the inverse of the gamma cumulative distribution function. |
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Evaluates the Tricomi form of the incomplete gamma function. |
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Evaluates the real or complex gamma function, Γ(x). |
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This function evaluates the gamma probability density function. |
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Evaluates the reciprocal of the real or complex gamma function, 1/Γ(x). |
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Evaluates a general continuous cumulative distribution function given ordinates of the density. |
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Evaluates the inverse of a general continuous cumulative distribution function given ordinates of the density. |
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Evaluates the discrete geometric cumulative probability distribution function. |
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Evaluates the inverse of the geometric cumulative probability distribution function. |
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Evaluates the discrete geometric probability density function. |
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Evaluates the inverse of a general continuous cumulative distribution function given in a subprogram. |
H
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Evaluates the hypergeometric cumulative distribution function. |
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Evaluates the hypergeometric probability density function. |
I
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Retrieves the integer code for an informational error. |
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Checks if a value is NaN (not a number). |
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Retrieves integer machine constants. |
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Initializes the orthogonal series so the function value is the number of terms needed to insure the error is no larger than the requested accuracy. |
L
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Evaluates the complex base 10 logarithm, log10 z. |
M
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Evaluates a sequence of even, periodic, integer order, real Mathieu functions. |
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Evaluates the eigenvalues for the periodic Mathieu functions. |
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Evaluates a sequence of odd, periodic, integer order, real Mathieu functions. |
N
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Retrieves the error type set by the most recently called IMSL routine. |
P
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Evaluates a generalization of Pochhammer’s symbol. |
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Evaluates a generalization of Pochhammer’s symbol starting from the first order. |
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Evaluates the Poisson cumulative distribution function. |
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Evaluates the Poisson probability density function. |
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Evaluates the derivative of the log gamma function. |
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Evaluates the second derivative of the log gamma function. |
R
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Evaluates the Rayleigh cumulative distribution function. |
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Evaluates the inverse of the Rayleigh cumulative distribution function. |
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Evaluates the Rayleigh probability density function. |
S
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Evaluates the hyperbolic sine integral. |
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Evaluates the sine integral. |
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Evaluates the sine for the argument in degrees. |
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Evaluates a form of Spence’s integral. |
T
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Evaluates tan z for complex z. |
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Evaluates the Student’s t cumulative distribution function. |
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Evaluates the inverse of the Student’s t cumulative distribution function. |
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Evaluates the noncentral Student’s t cumulative distribution function. |
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Evaluates the inverse of the noncentral Student’s t cumulative distribution function. |
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This function evaluates the noncentral Student's t probability density function. |
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Evaluates the Student’s t probability density function. |
U
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Sets or Retrieves input or output device unit numbers. |
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Evaluates the uniform cumulative distribution function. |
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Evaluates the discrete uniform cumulative distribution function. |
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Evaluates the inverse of the discrete uniform cumulative distribution function. |
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Evaluates the discrete uniform probability density function. |
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Evaluates the inverse of the uniform cumulative distribution function. |
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Evaluates the uniform probability density function. |
W
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Evaluates the Weibull cumulative distribution function |
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Evaluates the inverse of the Weibull cumulative distribution function. |
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Evaluates the Weibull probability density function. |
