Skip to content

andreasnoack/FastPolynomialRoots.jl

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

49 Commits
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

FastPolynomialRoots.jl - Fast and backward stable computation of roots of polynomials

CI Coverage Status

This package is a Julia wrapper of the Fortran programs accompanying Fast and Backward Stable Computation of Roots of Polynomials by Jared L. Aurentz, Thomas Mach, Raf Vandebril and David S. Watkins.

Usage

The package provides the unexported function FastPolynomialRoots.rootsFastPolynomialRoots(p::Vector{<:Union{Float64,Complex{Float64}}}) which computes the roots of the polynomial p[1] + p[2]*x + p[3]*x^2 + ... + p[k]*x^(k-1). The package also overwrites the roots(::Polynomial) methods in the Polynomials package for Float64 and Complex{Float64} elements with the fast versions provided by this package. See the examples below.

Example 1: Speed up roots

julia> using Polynomials, BenchmarkTools

julia> @btime roots(p) setup=(p = Polynomial(randn(500)));
  223.135 ms (23 allocations: 3.97 MiB)

julia> using FastPolynomialRoots

julia> @btime roots(p) setup=(p = Polynomial(randn(500)));
  30.786 ms (7 allocations: 26.41 KiB)

Example 2: Roots of a polynomial of degree 10,000

A computation of this size would not be feasible on a desktop with the traditional method but can be handled by FastPolynomialRoots.

julia> using Polynomials, BenchmarkTools, FastPolynomialRoots

julia> n = 10000;

julia> r = @btime roots(p) setup=(p = Polynomial(randn(n + 1)));
  10.290 s (13 allocations: 508.38 KiB)

julia> sum(isreal, r)
7

julia> 2/π*log(n) + 0.6257358072 + 2/(n*π) # Edelman and Kostlan
6.489284260212659

About

Fast and backward stable computation of roots of polynomials in Julia

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Contributors 4

  •  
  •  
  •  
  •  

Languages