A common interface for quadrature and numerical integration for the SciML scientific machine learning organization
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Updated
Jul 1, 2024 - Julia
A common interface for quadrature and numerical integration for the SciML scientific machine learning organization
Numerical integration methods for structural dynamics problems
One- and multi-dimensional adaptive integration routines for the Julia language
pure-Julia multidimensional h-adaptive integration
adaptive 1d numerical Gauss–Kronrod integration in Julia
Error propagation calculator and library for physical measurements. It supports real and complex numbers with uncertainty, arbitrary precision calculations, operations with arrays, and numerical integration.
Adaptive P/ODE numerics with Grassmann element TensorField assembly
Julia package to easily calculate multidimensional integrals on discrete domains, brings MATLAB&Numpy trapz function to Julia
Numerical integration of functions over Meshes.jl geometries
A toolbox for solving integral-related problems on (IFS-based) fractals.
A package for multi-dimensional integration using monte carlo methods
En este repositorio se muestra el código utilizado en el TFG “Implementación de un simulador 2D de elementos finitos en Julia” que nos permite, mediante el método de elementos finítos, calcular el campo electromagnético transversal en una guia de onda rectangular cerrada.
Julia package for Gaussian quadrature
Adaptive quadratures for nonlinear approximation of low-dimensional PDEs using smooth neural networks
Library for multidimensional numerical integration with four independent algorithms: Vegas, Suave, Divonne, and Cuhre.
A calculator of surface integrals for given surfaces and vector fields.
[DEPRECATED] Statistics & Numerical algorithms implemented in Julia.
This Repository will be destinated to the study of Offshore Well Modeling. The model that will be implemented is called Fast Offshore Wells Model (FOWM) from the paper: Fast Offshore Wells Model (FOWM): A practical dynamic model formultiphase oil production systems in deepwater and ultra-deepwaterscenarios
Bayesian Integration of functions
FEMQuad.jl package contains various of integration schemes for cartesian and tetrahedral domains. The most common integration rules are tabulated and focus is on speed. Each rule has own "label" so we can easily implement several rules with same degree. API is very simple making is easy to utilize package in different FEM projects.
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