AI Chat AI Image Generator AI Video Text to Speech

Rigorous numerical integration of algebraic functions

08/25/2022

∙

by Nils Bruin, et al.

∙

∙

We present an algorithm which uses Fujiwara's inequality to bound algebraic functions over ellipses of a certain type, allowing us to concretely implement a rigorous Gauss-Legendre integration method for algebraic functions over a line segment. We consider path splitting strategies to improve convergence of the method and show that these yield significant practical and asymptotic benefits. We implemented these methods to compute period matrices of algebraic Riemann surfaces and these are available in SageMath.

Nils Bruin
1 publication
Linden Disney-Hogg
1 publication
Wuqian Effie Gao
1 publication

research

∙ 02/12/2021

Lazy Hermite Reduction and Creative Telescoping for Algebraic Functions

Bronstein's lazy Hermite reduction is a symbolic integration technique t...

0 Shaoshi Chen, et al. ∙

research

∙ 01/06/2023

D-Algebraic Functions

Differentially-algebraic (D-algebraic) functions are solutions of polyno...

0 Rida Ait El Manssour, et al. ∙

research

∙ 02/23/2019

Algebraic Type Theory and Universe Hierarchies

It is commonly believed that algebraic notions of type theory support on...

0 Jonathan Sterling, et al. ∙

research

∙ 02/01/2016

Reduction-Based Creative Telescoping for Algebraic Functions

Continuing a series of articles in the past few years on creative telesc...

0 Shaoshi Chen, et al. ∙

research

∙ 11/22/2016

Reduction-Based Creative Telescoping for Fuchsian D-finite Functions

Continuing a series of articles in the past few years on creative telesc...

0 Shaoshi Chen, et al. ∙

research

∙ 05/10/2019

Asymptotics of multivariate sequences in the presence of a lacuna

We explain a discontinuous drop in the exponential growth rate for certa...

0 Yuliy Baryshnikov, et al. ∙

research

∙ 03/25/2023

A numeric study of power expansions around singular points of algebraic functions, their radii of convergence, and accuracy profiles

An efficient method of computing power expansions of algebraic functions...

0 Dominic C. Milioto, et al. ∙