PyTorch implementation of the diffusion-based method for CFD data super-resolution proposed in the paper "A Physics-informed Diffusion Model for High-fidelity Flow Field Reconstruction".
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Updated
May 28, 2023 - Python
PyTorch implementation of the diffusion-based method for CFD data super-resolution proposed in the paper "A Physics-informed Diffusion Model for High-fidelity Flow Field Reconstruction".
OpenFoam® motorBike case with adaptive volume & surface mesh refinement based on curl(U) or grad(p)
A 2D Lattice Boltzmann program
Using NVIDIA modulus for airfoil optimizations at different angles.
LBM (Lattice Boltzmann method) software for flow simulation, using GPU acceleration
This repository is a beginner-friendly introduction to Computational Fluid Dynamics (CFD) for those interested in developing their own CFD solver. It includes Jupyter notebooks with detailed instructions.
Solves Navier-Stokes equations for the 2D cavity flow using vorticity-stream function formulation
Parallelization attempt to the “12 steps to Navier–Stokes” lessons using OpenMP/C
provides Operator-Oriented Fortran Library for 2D incompressible flow simulation
Explicit incompressible Navier-stokes solver written in C based on finite-difference schemes
Oceans 2019 - Development of an Unmanned Surface Vehicle for Harmful Algae Remova
A ready to use software pipe line for Constraint Bayesian Optimization for UUV hull design
An open-source SciML tool for automated design evaluation & optimization using CFD based analysis
Computational modeling of convection enhanced delivery in heterogeneous vasculature of human brain tumors to maximize drug efficacy and select best combination of drugs for specific patient using CFD simulation in OpenFOAM
Curso de Dinámica de Fluidos Computacional Aplicada (CFD) creado en la herramienta Jupyter Notebook y empleando Python V3.7
This repository contains lecture notes, literature recommendations, tutorials, code, and examples for performing CFD simulations using mainly open-source software such as OpenFOAM, SU2, & PyFR. The aim is to provide a comprehensive resource for researchers and engineers who are interested in using CFD to solve fluid mechanics problems.
This repository showcases simulations from my research projects.
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