Senior Thesis project to develop CI for the Dedalus Project
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Updated
Mar 29, 2017 - Python
Senior Thesis project to develop CI for the Dedalus Project
A flexible parallel-hybrid framework for computational physics simulations.
Public repository for the SWISH project
A simple Numerical solution to the Blasius Similarity Boundary Layer equation.
Computational Optimal Transport: A Comparison of Two Algorithms
Simulating Rainfall with openFoam
Tsunami Simulator with parallel computing in modern Fortran
CFD Validation with OpenFOAM
Script that runs experiments on the implemented H(div)-conforming elements for Stokes equations in the finite element package ParMooN.
Numerical solution of one-dimensional equations motion of an inviscid compressible fluid (gas) in Lagrange variables.
As a passionate explorer of fluid dynamics, I’ve always been fascinated by the way fluids move and interact with their surroundings. This led me to the Navier-Stokes equations, which are the heart of this field. These equations, born from Newton’s second law of motion, elegantly encapsulate the forces of viscosity and pressure that govern fluid mot
Final Project for Leiden University Media Technology MSc. involving an advanced processing sketch that simulates the effect of catastrophe types on Faraday Wave pattern morphology during audiovisual playback. All code by Trent Eriksen and inspired by research from Amber van der Tuin
Work from classes I took during Undergraduate at University of Minnesota Twin Cities.
This contains the code and data used to generate the graphs and video frames from the posters, and the posters themselves. The whole video is given below (or as oil_droplet_interface_shape_comparison).
Neural network pruning to reduce the size of Neural Implicit Flow network.
🌊 Browser-based fluid simulation (Müller et al SPH method)
Documentation for flowtrace, simple visualization of biological fluid flows in MATLAB, Python, and ImageJ
My PhD thesis "Numerical computation of detonation stability"
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