humps, a MATLAB code which evaluates the humps() function, its first and second derivatives, and its antiderivative.
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humps is available in a C version and a C++ version and a Fortran77 version and a Fortran90 version and a MATLAB version and an Octave version and a Python version.
dirichlet, a MATLAB code which evaluates the Dirichlet kernel function, sometimes called the periodic sinc function. The function includes a parameter n, normally taken to be an integer. The function is defined by diric(x,n)=sin(0.5*n*x)/n/sin(0.5*x). Sample plots of these functions are made.
fresnel, a MATLAB code which evaluates the Fresnel cosine and sine integrals.
gaussian, a MATLAB code which evaluates the Gaussian function for arbitrary mu and sigma, its antiderivative, and derivatives of arbitrary order.
humps_ode a MATLAB code which solves an ordinary differential equation (ODE) whose solution is a double hump curve.
lagrange, a MATLAB code which evaluates any Lagrange basis polynomial L(i)(x), or its first or second derivatives. Some sample plots are made for demonstration.
runge, a MATLAB code which evaluates the Runge() function, its first and second derivatives, and its antiderivative. This function causes a breakdown for polynomial interpolation over equally spaced nodes in [-1,+1]. The functions are plotted.
sigmoid, a MATLAB code which evaluates the sigmoid function s(x)=1/(1+exp(-x)) or its derivatives of any order. The test code creates graphic images.
sinc, a MATLAB code which evaluates the sinc() function, its first and second derivative and its antiderivative. The normalized function is defined by sincn=sin(pi*x)/(pi*x), the unnormalized function is sincu=sin(x)/x. Plots of these functions are made.
steinerberger, a MATLAB code which evaluates the Steinerberger function, a continuous function with discontinuous derivative, which is very hard to accurately plot, integrate, minimize, or interpolate.