Programming Seminar: 2018-01. Mauricio Sevilla: jmsevillam@unal.edu.co - jmasevillam@gmail.com
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Updated
Aug 22, 2018 - C++
Programming Seminar: 2018-01. Mauricio Sevilla: jmsevillam@unal.edu.co - jmasevillam@gmail.com
Multi-body Dynamics and Visualizations
Simulating ionospheric effects on radio interferometry observations. This code simulate the MWA radio telescope and applies ionospheric source position offsets to the computed visibilities.
MSc Nuclear Science and Engineering Final Project. A ML Algorithm which is used to calculate residual stress tensors using Bayesian Inference, given a heavily-distorted set of simulated strain measurements.
Algorithms for electrostatic simulations for many body systems, like plasma, and them performance.
Jupyter Notebook y enlace a videos explicativos de laboratorios de física en educación superior.
Parallel Fast Multipole Methods in Python
Reconstructs a simulatable 3D mesh from in-vivo CARTO mapping data
Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics (UBA+CONICET) [Buenos Aires, Argentina]
Implementation of a Physics Informed Neural Network (PINN) written in Tensorflow v2, which is capable of solving Partial Differential Equations.
Proprietry software to solve the 2-electron time-dependent Schrodinger equation including a laser pulse interaction
고대의 원자 모형, 현대의 모형(오비탈) 시뮬래이션
Collections of MATLAB scripts and functions for the design of systems comprising cylindrically magnetized objects.
S-matrix method to calculate laser modes
Official (ugly and hard-to-read) implementation of "Topology Optimization via Frequency Tuning of Neural Design Representations" at SCF21. A clean implementation and corresponding blog and tutorial is under construction.
Public code release for the ACM Transactions on Graphics paper "Breaking Good: Fracture Modes for Realtime Destruction" and the NeurIPS 2022 paper "Breaking Bad: A Dataset for Geometric Fracture and Reassembly"
A simple software to elaborate data & run simulations about single stage rocket launches.
The purpose of this repository is to enable independent researchers to reproduce the simulations performed for a research article. I made very minor changes to the first paragraph of the introduction (see the original website).
An implementation of the DSMC-Boltzmann algorithm in several versions for the simulation of the heat transfer due to phonons in electrically non conducting samples.
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