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-rw-r--r--gnu/packages/julia-xyz.scm27
1 files changed, 27 insertions, 0 deletions
diff --git a/gnu/packages/julia-xyz.scm b/gnu/packages/julia-xyz.scm
index 0da2452b89..b56fa5427e 100644
--- a/gnu/packages/julia-xyz.scm
+++ b/gnu/packages/julia-xyz.scm
@@ -715,6 +715,33 @@ another package is loaded, so that explicit dependencies (and long load times)
can be avoided.")
(license license:expat)))
+(define-public julia-richardson
+ (package
+ (name "julia-richardson")
+ (version "1.4.0")
+ (source
+ (origin
+ (method git-fetch)
+ (uri (git-reference
+ (url "https://github.com/JuliaMath/Richardson.jl")
+ (commit (string-append "v" version))))
+ (file-name (git-file-name name version))
+ (sha256
+ (base32 "06v9ii3d7hh41fsrfklaa8ap55z5s017f888mrd1c18y4fx9i4nx"))))
+ (build-system julia-build-system)
+ (home-page "https://juliapackages.com/p/richardson")
+ (synopsis "Extrapolate function using Richardson method")
+ (description "This package provides a function extrapolate that
+extrapolates a given function @code{f(x)} to @code{f(x0)}, evaluating @code{f}
+only at a geometric sequence of points @code{> x0} (or optionally @code{<
+x0}). The key algorithm is Richardson extrapolation using a Neville–Aitken
+tableau, which adaptively increases the degree of an extrapolation polynomial
+until convergence is achieved to a desired tolerance (or convergence stalls
+due to e.g. floating-point errors). This allows one to obtain @code{f(x0)} to
+high-order accuracy, assuming that @code{f(x0+h)} has a Taylor series or some
+other power series in @code{h}.")
+ (license license:expat)))
+
(define-public julia-staticarrays
(package
(name "julia-staticarrays")