Pinned Repositories
ABAQUS
ABAQUS subroutines
boost-python-examples
Some examples for the use of boost::python
cmake-examples
Useful CMake Examples
CMakePractice
CMake 入门及练习
ComFluSoM
Simulation kit for Complex Fluid Solid Soil Mechanics
cpp-software-development
Large scale C++ Software development tutorials
CppCoreGuidelines
The C++ Core Guidelines are a set of tried-and-true guidelines, rules, and best practices about coding in C++
CppTemplateTutorial
中文的C++ Template的教学指南。与知名书籍C++ Templates不同,该系列教程将C++ Templates作为一门图灵完备的语言来讲授,以求帮助读者对Meta-Programming融会贯通。(正在施工中)
SimpleMPM3
2D and 3D material point method
Uintah_NTNU
This is a project in NTNU. There are two main development here
Gaoliu19910601's Repositories
Gaoliu19910601/Uintah_NTNU
This is a project in NTNU. There are two main development here
Gaoliu19910601/SimpleMPM3
2D and 3D material point method
Gaoliu19910601/boost-python-examples
Some examples for the use of boost::python
Gaoliu19910601/cmake-examples
Useful CMake Examples
Gaoliu19910601/ComFluSoM
Simulation kit for Complex Fluid Solid Soil Mechanics
Gaoliu19910601/cpp-software-development
Large scale C++ Software development tutorials
Gaoliu19910601/CppTemplateTutorial
中文的C++ Template的教学指南。与知名书籍C++ Templates不同,该系列教程将C++ Templates作为一门图灵完备的语言来讲授,以求帮助读者对Meta-Programming融会贯通。(正在施工中)
Gaoliu19910601/FEM
Simple C++ Finite Element Implementation of classical problems
Gaoliu19910601/free-programming-books
:books: Freely available programming books
Gaoliu19910601/GranularFlowModels
The software is a list of Abaqus User MATerial subroutines (VUMAT) for modeling granular flow physics. It includes (1) density dependent Mohr-Coulomb model, (2) density dependent Drager-Prager\Cap model, (3)Gudehus-Bauer hypoplastic model, and (4) critical state-based NorSand model.
Gaoliu19910601/karamelo
An open source parallel C++ package for the material point method
Gaoliu19910601/Kratos
Kratos Multiphysics (A.K.A Kratos) is a framework for building parallel multi-disciplinary simulation software. Modularity, extensibility and HPC are the main objectives. Kratos has BSD license and is written in C++ with extensive Python interface.
Gaoliu19910601/moose
Multiphysics Object Oriented Simulation Environment
Gaoliu19910601/moose2
Gaoliu19910601/mpm
Customized Material Point Method with CPIC & PolyPIC
Gaoliu19910601/mpm-1
CB-Geo High-Performance Material Point Method
Gaoliu19910601/mpm-doc
MPM documentation
Gaoliu19910601/MPM-Geomechanics
A Material Point Method Implementation for Geomechanics
Gaoliu19910601/MPM2D
2D Material Point Method
Gaoliu19910601/mpmat
MPMAT is a tutotial Material Point Method code implemented in Matlab
Gaoliu19910601/python3
Gaoliu19910601/Python_Test
Python test code
Gaoliu19910601/sdf2dWithMPM2D
SDF-based collision detection with MPM-based simulation
Gaoliu19910601/taichi
Productive & portable programming language for high-performance, sparse & differentiable computing
Gaoliu19910601/taichi_mpm
High-performance material point method (MPM) solver. (ACM Transactions on Graphics, SIGGRAPH 2018)
Gaoliu19910601/u-p-contact
Gaoliu19910601/uintah
The Uintah software suite is a set of libraries and applications for simulating and analyzing complex chemical and physical reactions. These reactions are modeled by solving partial differential equations on structured adaptive grids using hundreds to thousands of processors (though smaller simulations may also be run on a scientist's desktop computer). Key software applications have been developed for exploring the fine details of metal containers (encompassing energetic materials) embedded in large hydrocarbon fires. Uintah's underlying technologies have led to novel techniques for understanding large pool eddy fires as well as new methods for simulating fluid-structure interactions. The software is general purpose in nature and the breadth of simulation domains continues to grow beyond the original focus of the C-SAFE initiative
Gaoliu19910601/Uintah-1
Asynchronous Many Task Framework for set of libraries and applications for simulating and analyzing complex chemical and physical reactions modeled by partial differential equations on structured adaptive grids using hundreds to hundreds of thousands of processors.
Gaoliu19910601/Uintah1
This is a experiment code for the double-point hydro-mechanical coupling MPM in Uintah
Gaoliu19910601/ziran2019