lijunustc's repositories
2D-Navier-Stokes-Solver
As the field of Computational Fluid Dynamics (CFD) progresses, the fluid flows are more and more analysed by using simulations with the help of high speed computers. In order to solve and analyse these fluid flows we require intensive simulation involving mathematical equations which governs the fluid flow, these are Navier Stokes (NS) equation. Solving these equations has become a necessity as almost every problem which is related to fluid flow analysis call for solving of Navier Stokes equation. These NS equations are partial differential equations so different numerical methods are used to solve these equations. Solving these partial differential equations so different numerical methods requires large amount of computing power and huge amount of memory is in play. Only practical feasible way to solve these equation is write a parallel program to solve them, which can then be run on powerful hardware capable of parallel processing to get the desired results High speed supercomputer will provide us very good performance in terms of reduction in execution time. In paper focus will be on finite volume as a numerical method. We will also see what GPGPU (General-Purpose computing on Graphics Processing Units) is and how we are taking its advantages to solve CFD problems.
helloword
the first test
Lattice-Boltzmann-fluid-flow-in-Tensorflow
A Lattice Boltzmann fluid flow simulation written in Tensorflow.
ustcthesis
LaTeX template for USTC thesis v3.0
CFDPython
A sequence of IPython notebooks featuring the "12 Steps to Navier-Stokes" http://lorenabarba.com/
os_course_info
os course info
NavierStokes2D
Spectral solution for 2D Navier-Stokes equations
well_stability
This program is used to analyse well stability
NS_Solver_IBM
CFD assignment 2D incompressible Navier-Stokes solver
fortran-examples
homeworks and useful examples
code-fft-spectrum-kinetic-energy
OpenMP+FFT for kinetic energy spectrum
5.06.Multigrid2D
V-cycle Multigrid method for 2D Poisson Equation
Fortran-examples-1
A teach by example Fotran tutorial, emphasizing numerical methods for scientists.
Navier_Stokes_2D
2 D finite difference Navier Stokes code
UGKS
Codes for solving gas flow problems based on the Unified Gas-Kinetic Scheme