hpc-maths/ponio

Language: Jupyter Notebook - Size: 8.63 MB - Last synced at: 4 days ago - Pushed at: 4 days ago - Stars: 15 - Forks: 6

cfgnunes/numerical-methods-matlab

Numerical methods implementation in MATLAB.

Language: MATLAB - Size: 52.7 KB - Last synced at: 5 days ago - Pushed at: 12 months ago - Stars: 37 - Forks: 17

fuodorov/computational-physics

Solving problems from the course on the basics of computational physics

Language: Jupyter Notebook - Size: 1.53 MB - Last synced at: 7 days ago - Pushed at: 7 days ago - Stars: 1 - Forks: 2

SciML/RootedTrees.jl

A collection of functionality around rooted trees to generate order conditions for Runge-Kutta methods in Julia for differential equations and scientific machine learning (SciML)

Language: Julia - Size: 1.33 MB - Last synced at: 7 days ago - Pushed at: 6 months ago - Stars: 37 - Forks: 14

juliagusak/neural-ode-metasolver

Supplementary code for the paper "Meta-Solver for Neural Ordinary Differential Equations" https://arxiv.org/abs/2103.08561

Language: Python - Size: 15.1 MB - Last synced at: 3 days ago - Pushed at: about 4 years ago - Stars: 25 - Forks: 1

martinjrobins/diffsol

ODE solver library in Rust

Language: Rust - Size: 3.36 MB - Last synced at: 10 days ago - Pushed at: 11 days ago - Stars: 46 - Forks: 6

cfgnunes/numerical-methods-python

Numerical methods implementation in Python.

Language: Python - Size: 115 KB - Last synced at: 5 days ago - Pushed at: 3 months ago - Stars: 100 - Forks: 39

jrenaud90/CyRK

Runge-Kutta ODE Integrator Implemented in Cython and Numba

Language: Jupyter Notebook - Size: 19.1 MB - Last synced at: 12 days ago - Pushed at: 12 days ago - Stars: 13 - Forks: 2

Pakketeretet2/rehuel

Rehuel is a simple C++11 library for solving ordinary differential equations with (implicit) Runge-Kutta methods.

Language: C++ - Size: 986 KB - Last synced at: 15 days ago - Pushed at: 15 days ago - Stars: 16 - Forks: 4

chakravala/Adapode.jl

Adaptive P/ODE numerics with Grassmann element TensorField assembly

Language: Julia - Size: 133 KB - Last synced at: 7 days ago - Pushed at: 15 days ago - Stars: 11 - Forks: 0

woodward/integrator

A numerical integrator written in Elixir for the solution of sets of non-stiff ordinary differential equations (ODEs).

Language: Elixir - Size: 1.23 MB - Last synced at: 14 days ago - Pushed at: 2 months ago - Stars: 35 - Forks: 0

ranocha/BSeries.jl

Computing with B-series in Julia

Language: Julia - Size: 4.25 MB - Last synced at: 9 days ago - Pushed at: 14 days ago - Stars: 27 - Forks: 6

markmbaum/libode

Easy-to-compile, high-order ODE solvers as C++ classes

Language: C++ - Size: 14.6 MB - Last synced at: 11 days ago - Pushed at: 11 months ago - Stars: 40 - Forks: 7

DanielDoehring/paper-2024-perk4

Reproducibility Repository for the paper "Fourth-Order Paired-Explicit Runge-Kutta Methods"

Language: Julia - Size: 124 MB - Last synced at: 27 days ago - Pushed at: 27 days ago - Stars: 0 - Forks: 0

WRKampi/extensisq

Extend scipy.integrate with various methods for solve_ivp

Language: Python - Size: 8.35 MB - Last synced at: 2 days ago - Pushed at: 2 months ago - Stars: 16 - Forks: 2

jacobwilliams/Fortran-Astrodynamics-Toolkit

A Modern Fortran Library for Astrodynamics 🚀

Language: Fortran - Size: 22.4 MB - Last synced at: 29 days ago - Pushed at: 29 days ago - Stars: 181 - Forks: 52

ECheynet/dynaResp_beam_TD

The dynamic displacement response of a line-like structure to an uncorrelated Gaussian white noise input is computed in the time domain.

Language: MATLAB - Size: 899 KB - Last synced at: 10 days ago - Pushed at: over 1 year ago - Stars: 5 - Forks: 0

vargalaszlo87/math-functions

Math solutions.

Language: C - Size: 46.9 KB - Last synced at: 27 days ago - Pushed at: about 1 month ago - Stars: 0 - Forks: 0

fruzsinaagocs/oscode

Code for efficient solution of oscillatory ordinary differential equations

Language: C++ - Size: 30.5 MB - Last synced at: 7 days ago - Pushed at: 3 months ago - Stars: 31 - Forks: 12

iraikov/rklib

Runge-Kutta methods in Standard ML

Language: Standard ML - Size: 52.7 KB - Last synced at: 27 days ago - Pushed at: almost 8 years ago - Stars: 2 - Forks: 1

whydenyscry/Dynamics-of-Chaotic-Attractors-Part-2

A continuation of my gallery of three-dimensional chaotic attractors.

Language: MATLAB - Size: 311 MB - Last synced at: 12 days ago - Pushed at: about 2 months ago - Stars: 0 - Forks: 0

jacobwilliams/rklib

Fixed and variable-step Runge-Kutta solvers in Modern Fortran

Language: Fortran - Size: 15.7 MB - Last synced at: 2 months ago - Pushed at: over 1 year ago - Stars: 77 - Forks: 4

zoziha/rkf45

Fehlberg fourth-fifth order Runge-Kutta method. (rkf45)

Language: Fortran - Size: 29.3 KB - Last synced at: 2 months ago - Pushed at: over 1 year ago - Stars: 5 - Forks: 1

fritzwill/numerical-methods

Contains sample implementations in python of the following numerical methods: Euler's Method, Midpoint Euler's Method, Runge Kuttta Method of Order 4, and Composite Simpson's Rule

Language: Python - Size: 5.86 KB - Last synced at: 2 months ago - Pushed at: 2 months ago - Stars: 5 - Forks: 0

whydenyscry/Dynamics-of-Hyperchaotic-Attractors

Gallery of high-dimensional hyperchaotic attractors.

Language: MATLAB - Size: 252 MB - Last synced at: 18 days ago - Pushed at: 2 months ago - Stars: 0 - Forks: 0

whydenyscry/Dynamics-of-Chaotic-Attractors-Part-1

Gallery of more than 100 three-dimensional сhaotic attractors.

Language: MATLAB - Size: 1.86 GB - Last synced at: 2 months ago - Pushed at: 2 months ago - Stars: 2 - Forks: 0

AnuragAnalog/Numerical-Analysis

This repo contains some of the well-known algorithms for Numerical Analysis.

Language: C - Size: 153 KB - Last synced at: about 1 month ago - Pushed at: over 3 years ago - Stars: 1 - Forks: 1

whydenyscry/Lyapunov-Exponents

MATLAB script for calculating Lyapunov exponents and Kaplan—Yorke dimension.

Language: MATLAB - Size: 10.6 MB - Last synced at: about 2 months ago - Pushed at: 3 months ago - Stars: 0 - Forks: 0

lucasamtaylor01/Lorenz63

Aplicação de métodos numéricos no atrator de Lorenz 🌀.

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jacobwilliams/rksuite

Unofficial mirror of RKSUITE http://www.netlib.org/ode/rksuite/

Language: Fortran - Size: 110 KB - Last synced at: 2 months ago - Pushed at: about 6 years ago - Stars: 6 - Forks: 1

jacobwilliams/dop853

Modern Fortran Edition of Hairer's DOP853 ODE Solver. An explicit Runge-Kutta method of order 8(5,3) for problems y'=f(x,y); with dense output of order 7

Language: Fortran - Size: 1.4 MB - Last synced at: 2 months ago - Pushed at: about 2 years ago - Stars: 52 - Forks: 14

kbladin/Fluid_Simulation

Self advection, external force and pressure solve to a velocity field represented by a MaC grid.

Language: C++ - Size: 32.1 MB - Last synced at: 19 days ago - Pushed at: about 6 years ago - Stars: 133 - Forks: 13

shahabahreini/Magnetic-Nozzle-Particle-Dynamics

M.Sc. Thesis in University of Saskatchewan - Charged Particle in EM Fields

Language: Python - Size: 1.34 MB - Last synced at: 17 days ago - Pushed at: 3 months ago - Stars: 0 - Forks: 0

ThanasisMattas/mattflow

A numerical CFD solver for the Shallow Water Equations

Language: Python - Size: 1.78 MB - Last synced at: 26 days ago - Pushed at: 6 months ago - Stars: 32 - Forks: 7

vidminno/Runge-Kutta-Solver

General Runge-Kutta Solver

Language: C++ - Size: 81.1 KB - Last synced at: 4 months ago - Pushed at: 4 months ago - Stars: 0 - Forks: 0

spyderkam/CR3BP

Finding the stable orbits of a small comet in a comet–earth–sun 3 body system using the classic Runge–Kutta method as well as the concept of Lagrange points.

Language: Fortran - Size: 126 KB - Last synced at: 4 months ago - Pushed at: 4 months ago - Stars: 0 - Forks: 0

PAminai/Numercal-Analysis

Programming different types of numerical methods using MATLAB. All codes have been developed from the scratch during the academic year 2016-2017 for Numerical Analysis course at Shiraz University.

Language: MATLAB - Size: 322 KB - Last synced at: 5 months ago - Pushed at: 5 months ago - Stars: 1 - Forks: 0

aromanro/ElectricField

Electric field lines and equipotentials using Runge-Kutta methods, including adaptive ones

Language: C++ - Size: 221 KB - Last synced at: 19 days ago - Pushed at: 7 months ago - Stars: 23 - Forks: 6

JoyM268/sdmcet-m2

Repository of all the programs taught in M2 Lab at SDMCET, 2022 - 23

Language: Jupyter Notebook - Size: 7.32 MB - Last synced at: 3 months ago - Pushed at: 6 months ago - Stars: 3 - Forks: 0

DonRyuDragoni/ODE.rs 📦

/!\ Warning! I don't have the energy to keep working on this project at the moment. Would like to return to it some point in the future, but if you'd like to work on it I'm willing to transfer ownership.

Language: Rust - Size: 25.4 KB - Last synced at: 25 days ago - Pushed at: about 7 years ago - Stars: 5 - Forks: 0

lluis-mv/HM-RK

Implementation of explicit Runge-Kutta time-marching schemes for the coupled hydro-mechanical problem.

Language: MATLAB - Size: 2.71 MB - Last synced at: 7 months ago - Pushed at: 7 months ago - Stars: 2 - Forks: 0

augustryder/Chaotic-Pendulum

Interactive double pendulum simulation showcasing non-linear dynamics and chaotic motion

Language: TypeScript - Size: 500 KB - Last synced at: 7 months ago - Pushed at: 7 months ago - Stars: 0 - Forks: 0

biyori-sh/exercises_common-lisp

Language: Common Lisp - Size: 32.2 KB - Last synced at: 8 months ago - Pushed at: about 4 years ago - Stars: 0 - Forks: 0

zertovitch/mathpaqs

Mathpaqs: a collection of mathematical packages in pure Ada

Language: Ada - Size: 688 KB - Last synced at: 8 months ago - Pushed at: 8 months ago - Stars: 11 - Forks: 3

aliasgharheidaricom/RUN-Beyond-the-Metaphor-An-Efficient-Optimization-Algorithm-Based-on-Runge-Kutta-Method

The optimization field suffers from the metaphor-based “pseudo-novel” or “fancy” optimizers. Most of these cliché methods mimic animals' searching trends and possess a small contribution to the optimization process itself. Most of these cliché methods suffer from the locally efficient performance, biased verification methods on easy problems, and high similarity between their components' interactions. This study attempts to go beyond the traps of metaphors and introduce a novel metaphor-free population-based optimization based on the mathematical foundations and ideas of the Runge Kutta (RK) method widely well-known in mathematics. The proposed RUNge Kutta optimizer (RUN) was developed to deal with various types of optimization problems in the future. The RUN utilizes the logic of slope variations computed by the RK method as a promising and logical searching mechanism for global optimization. This search mechanism benefits from two active exploration and exploitation phases for exploring the promising regions in the feature space and constructive movement toward the global best solution. Furthermore, an enhanced solution quality (ESQ) mechanism is employed to avoid the local optimal solutions and increase convergence speed. The RUN algorithm's efficiency was evaluated by comparing with other metaheuristic algorithms in 50 mathematical test functions and four real-world engineering problems. The RUN provided very promising and competitive results, showing superior exploration and exploitation tendencies, fast convergence rate, and local optima avoidance. In optimizing the constrained engineering problems, the metaphor-free RUN demonstrated its suitable performance as well. The authors invite the community for extensive evaluations of this deep-rooted optimizer as a promising tool for real-world optimization. The source codes, supplementary materials, and guidance for the developed method will be publicly available at different hubs at http://aliasgharheidari.com/RUN.html.

Language: MATLAB - Size: 2.91 MB - Last synced at: 9 months ago - Pushed at: 9 months ago - Stars: 5 - Forks: 2

hellpig/trajectory-thingy

launch missiles through atmosphere and space on a spherical spinning Earth to hit a specified target

Language: C++ - Size: 77.1 KB - Last synced at: 9 months ago - Pushed at: 9 months ago - Stars: 3 - Forks: 1

Hevenicio/3D-Lorenz-Attractor-simulation-with-python

3D animation of the Lorenz Attractor trajectory, implemented in Python using the 4th order Runge-Kutta method. [Personal project]

Language: Python - Size: 25.4 KB - Last synced at: 10 months ago - Pushed at: 10 months ago - Stars: 19 - Forks: 3

SvoONs/higher_order_CWENO_boundary_treatment

numpy-based implementation of Central WENO (CWENO) reconstructions

Language: Python - Size: 927 KB - Last synced at: 10 months ago - Pushed at: 10 months ago - Stars: 2 - Forks: 1

trixi-framework/paper-2024-amr-paired-rk

Reproducibility repository for the paper "Multirate Time-Integration based on Dynamic ODE Partitioning through Adaptively Refined Meshes for Compressible Fluid Dynamics"

Language: Julia - Size: 726 KB - Last synced at: about 1 month ago - Pushed at: 10 months ago - Stars: 4 - Forks: 0

ctbip/swinging-atwood-machine-simulation

This project numerically solves the system of differential equations describing a swinging Atwood machine using the Runge-Kutta method of the 4th order.

Language: C++ - Size: 4.83 MB - Last synced at: 11 months ago - Pushed at: 11 months ago - Stars: 0 - Forks: 0

whalenpt/rkstiff

Runge-Kutta adaptive-step solvers for nonlinear PDEs. Solvers include both exponential time differencing and integrating factor methods.

Language: Python - Size: 3.7 MB - Last synced at: 2 months ago - Pushed at: about 2 years ago - Stars: 11 - Forks: 1

DanielDoehring/SSOCs

Arbitrary Precision Stability Polynomials by Second-Order Cones

Language: C++ - Size: 76.2 KB - Last synced at: 10 months ago - Pushed at: 11 months ago - Stars: 0 - Forks: 1

DanielDoehring/OSPREI

Code for generating Optimal Stability Polynomials in Roots for Explicit time Integration.

Language: C++ - Size: 143 KB - Last synced at: 10 months ago - Pushed at: 11 months ago - Stars: 2 - Forks: 1

Karimi-Hossein-1998/ODE_Solver

I have tried to explain the multi-step-methods of solving ODEs via Adams-Bashforth and Adams-Moulton methods which are explicit and implicit methods respectively. I also have implemented them explicitly to solve for a system of ODEs, I have also done an explicit implementation of fourth order Runge-Kutta method in the process as it is needed.

Language: Jupyter Notebook - Size: 30.3 KB - Last synced at: 12 months ago - Pushed at: 12 months ago - Stars: 0 - Forks: 0

noranta4/Three-body-problem

The motion of an asteroid in a two-dimensional space with a star and a planet • University project • 2014 - Laboratorio di Fisica Computazionale - BSc in Physics, II year

Language: C - Size: 2.63 MB - Last synced at: 10 days ago - Pushed at: about 6 years ago - Stars: 6 - Forks: 0

BanaanKiamanesh/Shilling

Shilling is implementation of 28 Runge Kutta Based fixed-step ODE solvers in MATLAB.

Language: MATLAB - Size: 872 KB - Last synced at: about 2 months ago - Pushed at: about 1 year ago - Stars: 0 - Forks: 0

shadowbourne/multicore-n-planet-simulator

3rd Year: 1st - 90. Vectorized and multicore n-body simulators written and extensively optimised in C++ for scalability to millions of particles/planets (using Euler method and Runge-Kutta 2).

Language: C++ - Size: 822 KB - Last synced at: 12 months ago - Pushed at: over 3 years ago - Stars: 1 - Forks: 0

mieskolainen/n-body-gravity

N-body gravity simulation

Language: MATLAB - Size: 720 KB - Last synced at: 12 months ago - Pushed at: almost 6 years ago - Stars: 0 - Forks: 0

aromanro/CompLotkaVolterra

Competitive Lotka–Volterra equations, solved using Runge-Kutta methods. Four dimensional system.

Language: C++ - Size: 94.7 KB - Last synced at: 19 days ago - Pushed at: about 1 year ago - Stars: 11 - Forks: 4

vlakir/cleanode

Сustomized collection of ODE solvers

Language: Python - Size: 104 KB - Last synced at: 7 months ago - Pushed at: over 3 years ago - Stars: 3 - Forks: 1

FistOfHit/StrangeAttractors

Finding evidence for the existence of Strange, non-chaotic attractors in the Quasi-periodically driven duffing oscillator.

Language: Matlab - Size: 1.03 MB - Last synced at: 12 months ago - Pushed at: about 7 years ago - Stars: 12 - Forks: 2

oguz81/ForcedPendulum

Simulation of forced damped pendulum with C++ and OpenGL

Language: HTML - Size: 43.9 KB - Last synced at: about 1 year ago - Pushed at: about 3 years ago - Stars: 0 - Forks: 0

Cygnus000/tratamiento

Códigos en lenguaje fortran 90 que implementan el algoritmo Runge-Kutta de orden 2, Runge-Kutta de orden 4 y el método de Dormand Prince con paso adaptativo para modelos de tratamiento de cáncer

Language: Fortran - Size: 604 KB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 0 - Forks: 0

Cygnus000/crecimiento

Códigos en lenguaje fortran 90 que implementan el algoritmo Runge-Kutta de orden 2, Runge-Kutta de orden 4 y el método de Dormand Prince de paso adaptativo para modelos de crecimiento de cáncer

Language: Fortran - Size: 1.08 MB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 0 - Forks: 0

CYBRPHRK/Python-tools-for-the-investigation-of-optimal-Explicit-Runge-Kutta-methods

A repository to save my work for my research thesis.

Language: HTML - Size: 269 KB - Last synced at: about 1 year ago - Pushed at: over 3 years ago - Stars: 0 - Forks: 0

savarsinha123/numerical-methods

This repo contains implementations of several numerical methods in MATLAB.

Language: MATLAB - Size: 1.5 MB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 1 - Forks: 0

BhattSoham/Implementation-of-Runge-Kutta-Hardware-Accelerator

Hardware Accelerator implementation for solving an ordinary differential equation using Runge Kutta Numerical methods using VHDL language

Language: VHDL - Size: 517 KB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 0 - Forks: 0

yor-dev/cupy_ivp

CuPy-compatible initial value problem library based on Scipy

Language: Jupyter Notebook - Size: 133 KB - Last synced at: 4 months ago - Pushed at: about 2 years ago - Stars: 3 - Forks: 1

davidrzs/Runge-Kutta-ODE-Solver

An ODE solver taking a Butcher tableau and implementing explicit as well as implicit Runge Kutta methods.

Language: C++ - Size: 193 KB - Last synced at: 12 months ago - Pushed at: about 4 years ago - Stars: 1 - Forks: 0

JCLArriaga5/trajectory-simulation-pelican-robot

Trajectory simulation of the Pelican Prototype Robot of the CICESE Research Center, Mexico. The position control used was PD control with gravity compensation and the 4th order Runge-Kutta method.

Language: Python - Size: 6.07 MB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 6 - Forks: 1

mirianfsilva/lorenz-attractor-chaos-theory

Evaluating the Lorenz Attractor using Runge-Kutta, Predictor-Corrector and Euler methods.

Language: Jupyter Notebook - Size: 6.82 MB - Last synced at: about 1 year ago - Pushed at: almost 5 years ago - Stars: 8 - Forks: 2

soypat/godesim

ODE system solver made simple. For IVPs (initial value problems).

Language: Go - Size: 290 KB - Last synced at: 17 days ago - Pushed at: almost 3 years ago - Stars: 23 - Forks: 1

Manik2000/differential-equations

A repository containing projects ...

Language: Jupyter Notebook - Size: 39.9 MB - Last synced at: 27 days ago - Pushed at: over 1 year ago - Stars: 0 - Forks: 0

princemahajan/FLINT

Fortran Library for numerical INTegration of differential equations

Language: Fortran - Size: 3.66 MB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 41 - Forks: 9

dbrcina/APR-FER-2020-21

Homework solutions for Computer Aided Analysis and Design ("Analiza i projektiranje računalom") course at FER 2020/21 led by prof. dr. sc. Domagoj Jakobović

Language: Jupyter Notebook - Size: 3.1 MB - Last synced at: over 1 year ago - Pushed at: about 3 years ago - Stars: 2 - Forks: 0

ksonod/RungeKutta

4th-order Runge-Kutta method for solving the first-order ordinary differential equation (MATLAB)

Language: MATLAB - Size: 8.79 KB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 12 - Forks: 7

HussainAbdi/Gravity-Simulator

N-body space simulator that uses the Runge-Kutta 4 numerical integration method to solve two first order differential equations derived from the second order differential equation that governs the motion of an orbiting celestial. Also has preset demos for two-body and three-body circular orbits which use parametric equations. Uses the SFML (Simple and Fast Multimedia Library) library: https://www.sfml-dev.org

Language: C++ - Size: 79.2 MB - Last synced at: over 1 year ago - Pushed at: almost 8 years ago - Stars: 3 - Forks: 1

john-s-butler-dit/Numerical-Analysis-Python

Python notebooks for Numerical Analysis

Language: Jupyter Notebook - Size: 17 MB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 106 - Forks: 24

cuspaceflight/kiwi

Generalised 6 degree of freedom trajectory propagator.

Language: Jupyter Notebook - Size: 3.21 MB - Last synced at: 2 months ago - Pushed at: over 2 years ago - Stars: 3 - Forks: 0

daniilgrbic/SolarPy

An accurate Solar system simulation with cool mathematics and a custom 3D engine

Language: Python - Size: 126 KB - Last synced at: about 2 months ago - Pushed at: almost 3 years ago - Stars: 2 - Forks: 1

TroddenSpade/EulerRK4-Solver

Solving First Order Differential Equations using Euler and RK4 methods

Language: Java - Size: 2.45 MB - Last synced at: over 1 year ago - Pushed at: almost 6 years ago - Stars: 3 - Forks: 0

jnafzig/HamiltonianSolver

Numerically solves equations of motion for a given Hamiltonian function

Language: Python - Size: 21.3 MB - Last synced at: over 1 year ago - Pushed at: almost 3 years ago - Stars: 51 - Forks: 6

the-abadie/Pendulum-Sim

A Python Notebook that simulates a simple pendulum. Solves the differential equation using both Euler Method and 4th Order Runge-Kutta to compare them. Generates a phase-space diagram of the pendulum.

Language: Jupyter Notebook - Size: 8.55 MB - Last synced at: 2 months ago - Pushed at: over 1 year ago - Stars: 0 - Forks: 0

PeterSoyfer/numerical-integration

Various methods of numerical integration and problems of Mathematical Optimisation written in C-fashioned C++ and exhibited in model toy projects

Language: C++ - Size: 843 KB - Last synced at: about 1 year ago - Pushed at: over 1 year ago - Stars: 0 - Forks: 0

AndyJohnsonMath/numericalDifferentialEquations

A repository full off numerical methods used for solving ordinary differential equations

Language: Jupyter Notebook - Size: 422 KB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 0 - Forks: 0

aslotv/VerticalModifiedMinMod

This repository contains the code used for simulations in the study by Aksnes et al. (2023)

Language: MATLAB - Size: 10.4 MB - Last synced at: about 1 year ago - Pushed at: about 1 year ago - Stars: 1 - Forks: 0

srkvatsa/Runge-Kutta

Runge-Kutta Methods Talk - full resources and self-implemented NINT demos

Language: Jupyter Notebook - Size: 9.94 MB - Last synced at: over 1 year ago - Pushed at: almost 3 years ago - Stars: 1 - Forks: 0

cakshay2013/Numerical-Integration-Techniques-Solutions

This repository includes numerical integration-based solutions for solving non-linear equations. The solutions include Newton Raphson technique for algebraic equations and Euler's/Modified-Euler's/Runge-Kutta (RK4) for differential algebraic equations.

Language: MATLAB - Size: 6.84 KB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 1 - Forks: 0

thomasmunduchira/numerical-solver-differential-equation

A numerical solver for differential equations with the ability to use Euler's, Improved Euler's, and Runge Kutta methods.

Language: Python - Size: 7.81 KB - Last synced at: over 1 year ago - Pushed at: over 8 years ago - Stars: 2 - Forks: 0

williamdavie/three-body-problem

.ೃ A graphical simulation of the three body problem written in C++.

Language: C++ - Size: 10.8 MB - Last synced at: 6 months ago - Pushed at: almost 2 years ago - Stars: 0 - Forks: 0

FabrizioMusacchio/Orbit

This repository contains the code for the blog post on Runge-Kutta methods for solving ODEs. For further details, please refer to this post.

Language: Python - Size: 29.5 MB - Last synced at: about 2 months ago - Pushed at: almost 2 years ago - Stars: 0 - Forks: 0

shill1729/odeSolveR

numerical solver for first order ODE systems via Euler and RK4 schemes

Language: R - Size: 1.01 MB - Last synced at: almost 2 years ago - Pushed at: about 4 years ago - Stars: 0 - Forks: 0

GustavoValenca/Metodos-Numericos-II

Integração: Newton-Cotes, Gauss-Legendre, Gauss-Hermite, Gauss-Laguerre, Gauss-Чебышёв. Autovalores e Autovetores. Problema de Valor Inicial (PVI): Método de Euler, Runge-Kutta, Adams-Bashforth. Problema de Valor de Contorno (PVC). Derivada: Expansão em Série de Taylor, Função de Interpolação de Newton.

Language: Python - Size: 12.7 KB - Last synced at: almost 2 years ago - Pushed at: almost 2 years ago - Stars: 1 - Forks: 0

juliorodrigues07/computational_modeling

Computational modeling practical exercises.

Language: Python - Size: 2.61 MB - Last synced at: almost 2 years ago - Pushed at: almost 2 years ago - Stars: 0 - Forks: 0

xavierdechamps/Burgers_1D

Solve the 1D forced Burgers equation with high order finite elements and finite difference schemes.

Language: MATLAB - Size: 12.1 MB - Last synced at: almost 2 years ago - Pushed at: over 2 years ago - Stars: 19 - Forks: 2

shrey1216/Algorithms-on-Python

A set of numerical algorithms I coded on Python

Language: Python - Size: 712 KB - Last synced at: about 1 year ago - Pushed at: almost 2 years ago - Stars: 1 - Forks: 0

davidgturner/numericalMethods

numerical methods examples

Language: Java - Size: 41 KB - Last synced at: almost 2 years ago - Pushed at: almost 4 years ago - Stars: 1 - Forks: 0

iwhoppock/korteweg-de_vries

A solution, written in C, to Korteweg de Vries using the fourth order Runge-Kutta method and finite differences.

Language: C - Size: 2.23 MB - Last synced at: 7 months ago - Pushed at: over 6 years ago - Stars: 1 - Forks: 0

devanshuThakar/Numerical-Methods

This repositary contains the MATLAB implementation of main numerical methods like Newton-Raphson, Simpson's integration and numerical ODE solver.

Language: MATLAB - Size: 21.5 KB - Last synced at: almost 2 years ago - Pushed at: over 4 years ago - Stars: 2 - Forks: 0

horheynm/ModelingEbolaSpread_SIR

SIR approximation model

Language: MATLAB - Size: 3.03 MB - Last synced at: 18 days ago - Pushed at: about 2 years ago - Stars: 0 - Forks: 0