This is documentation for an old release of NumPy (version 1.13). Read this page Search for this page in the documentation of the latest stable release (version 2.2).
HermiteE Module, “Probabilists’” (numpy.polynomial.hermite_e)
This module provides a number of objects (mostly functions) useful for
dealing with HermiteE series, including a HermiteE class that
encapsulates the usual arithmetic operations. (General information
on how this module represents and works with such polynomials is in the
docstring for its “parent” sub-package, numpy.polynomial).
HermiteE Class
HermiteE(coef[, domain, window]) |
An HermiteE series class. |
Basics
hermeval(x, c[, tensor]) |
Evaluate an HermiteE series at points x. |
hermeval2d(x, y, c) |
Evaluate a 2-D HermiteE series at points (x, y). |
hermeval3d(x, y, z, c) |
Evaluate a 3-D Hermite_e series at points (x, y, z). |
hermegrid2d(x, y, c) |
Evaluate a 2-D HermiteE series on the Cartesian product of x and y. |
hermegrid3d(x, y, z, c) |
Evaluate a 3-D HermiteE series on the Cartesian product of x, y, and z. |
hermeroots(c) |
Compute the roots of a HermiteE series. |
hermefromroots(roots) |
Generate a HermiteE series with given roots. |
Fitting
hermefit(x, y, deg[, rcond, full, w]) |
Least squares fit of Hermite series to data. |
hermevander(x, deg) |
Pseudo-Vandermonde matrix of given degree. |
hermevander2d(x, y, deg) |
Pseudo-Vandermonde matrix of given degrees. |
hermevander3d(x, y, z, deg) |
Pseudo-Vandermonde matrix of given degrees. |
Calculus
hermeder(c[, m, scl, axis]) |
Differentiate a Hermite_e series. |
hermeint(c[, m, k, lbnd, scl, axis]) |
Integrate a Hermite_e series. |
Algebra
hermeadd(c1, c2) |
Add one Hermite series to another. |
hermesub(c1, c2) |
Subtract one Hermite series from another. |
hermemul(c1, c2) |
Multiply one Hermite series by another. |
hermemulx(c) |
Multiply a Hermite series by x. |
hermediv(c1, c2) |
Divide one Hermite series by another. |
hermepow(c, pow[, maxpower]) |
Raise a Hermite series to a power. |