Numerical Differentiation Toolbox
Functions and classes to evaluate derivatives, partial derivatives, gradients, directional derivatives, Jacobians, and Hessians.
https://tamaskis.github.io/Numerical_Differentiation_Toolbox-MATLAB/
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Numerical Differentiation Toolbox 
This toolbox supplies functions and classes to evaluate derivatives, partial derivatives, gradients, directional derivatives, Jacobians, and Hessians using the forward difference, central difference, and complex-step approximations of a derivative.
Installation
- Download the toolbox from File Exchange or GitHub.
- Open the
INSTALLfolder. - Double-click on
Numerical Differentiation Toolbox.mltbx.
MATLAB will automatically perform the installation and add all the contents of the toolbox folder to the MATLAB search path. Alternatively, all of the functions in the toolbox folder can be used independently.
Documentation
Toolbox Documentation
Technical Documentation
To open the home page of the toolbox documentation in MATLAB, type the following in the Command Window:
doc_NDT
To open the documentation of a specific function or class with name name, type the following in the Command Window:
doc_NDT name
To open the technical documentation PDF (Numerical_Differentiation.pdf), type the following in the Command Window:
doc_NDT tech
Differentiator Class
D = Differentiator(method)
Central Difference Differentiation Functions
df = cderivative(f,x0)
pf = cpartial(f,x0,k)
g = cgradient(f,x0)
Dv = cdirectional(f,x0,v)
J = cjacobian(f,x0)
H = chessian(f,x0)
H = cvechessian(f,x0)
Forward Difference Differentiation Functions
df = fderivative(f,x0)
pf = fpartial(f,x0,k)
g = fgradient(f,x0)
Dv = fdirectional(f,x0,v)
J = fjacobian(f,x0)
H = fhessian(f,x0)
H = fvechessian(f,x0)
Complex-Step Differentiation Functions
df = iderivative(f,x0)
pf = ipartial(f,x0,k)
g = igradient(f,x0)
Dv = idirectional(f,x0,v)
J = ijacobian(f,x0)
H = ihessian(f,x0)
H = ivechessian(f,x0)
"Complexified" Functions
y = iabs(x)
z = iatan2(y,x)
z = iatan2d(y,x)
z = idot(x,y)
m = imax(x,y)
m = imin(x,y)
r = imod(a,n)
y = inorm(x)
r = irem(a,n)
Cita come
Tamas Kis (2026). Numerical Differentiation Toolbox (https://github.com/tamaskis/Numerical_Differentiation_Toolbox-MATLAB/releases/tag/v7.1.4), GitHub. Recuperato .
Informazioni generali
Compatibilità della release di MATLAB
- Compatibile con qualsiasi release
Compatibilità della piattaforma
- Windows
- macOS
- Linux
