gdwSH

graphics, simulation, peking university

Pinned Repositories

FleX
Language:C++0 0 00
IPC
Incremental Potential Contact (IPC) is for robust and accurate time stepping of nonlinear elastodynamics. IPC guarantees intersection- and inversion-free trajectories regardless of materials, time-step sizes, velocities, or deformation severity.
Language:C++0 0 00
LearnOpenGL
Code repository of all OpenGL chapters from the book and its accompanying website https://learnopengl.com
Language:C++00
libigl
Simple C++ geometry processing library.
Language:C++00
osqp
The Operator Splitting QP Solver
Language:C++00
peridigm
Peridigm peridynamics code.
Language:C++0 0 00
PositionBasedDynamics
PositionBasedDynamics is a library for the physically-based simulation of rigid bodies, deformable solids and fluids.
Language:C++00
Quasi-Newton-Methods-for-Real-time-Simulation-of-Hyperelastic-Materials
Language:C++00
Shape-Matching-Element-Method
Shape Matching Virtual Element Method for direct simulation on CAD models!
Language:C0 0 00
SPlisHSPlasH
SPlisHSPlasH is an open-source library for the physically-based simulation of fluids.
Language:C++0 0 00

gdwSH's Repositories

gdwSH/FleX
Language:C++0 0 00
gdwSH/IPC
Incremental Potential Contact (IPC) is for robust and accurate time stepping of nonlinear elastodynamics. IPC guarantees intersection- and inversion-free trajectories regardless of materials, time-step sizes, velocities, or deformation severity.
Language:C++0 0 00
gdwSH/LearnOpenGL
Code repository of all OpenGL chapters from the book and its accompanying website https://learnopengl.com
Language:C++00
gdwSH/libigl
Simple C++ geometry processing library.
Language:C++00
gdwSH/osqp
The Operator Splitting QP Solver
Language:C++00
gdwSH/peridigm
Peridigm peridynamics code.
Language:C++0 0 00
gdwSH/PositionBasedDynamics
PositionBasedDynamics is a library for the physically-based simulation of rigid bodies, deformable solids and fluids.
Language:C++00
gdwSH/Quasi-Newton-Methods-for-Real-time-Simulation-of-Hyperelastic-Materials
Language:C++00
gdwSH/Shape-Matching-Element-Method
Shape Matching Virtual Element Method for direct simulation on CAD models!
Language:C0 0 00
gdwSH/SPlisHSPlasH
SPlisHSPlasH is an open-source library for the physically-based simulation of fluids.
Language:C++0 0 00
gdwSH/SuiteSparse
The official SuiteSparse library: a suite of sparse matrix algorithms authored or co-authored by Tim Davis, Texas A&M University. NOTE: PRs without signed CONTRIBUTOR AGREEMENT can't be accepted.
Language:C0 0
gdwSH/suitesparse-metis-for-windows
CMake scripts for painless usage of SuiteSparse+METIS from Visual Studio and the rest of Windows/Linux/OSX IDEs supported by CMake
Language:C0 0
gdwSH/taichi
Productive & portable programming language for high-performance, sparse & differentiable computing
Language:C++0 0
gdwSH/vcpkg
C++ Library Manager for Windows, Linux, and MacOS
Language:CMake0 0
gdwSH/zeno
ZEn NOde system

gdwSH

Pinned Repositories

FleX

IPC

LearnOpenGL

libigl

osqp

peridigm

PositionBasedDynamics

Quasi-Newton-Methods-for-Real-time-Simulation-of-Hyperelastic-Materials

Shape-Matching-Element-Method

SPlisHSPlasH

gdwSH's Repositories

gdwSH/FleX

gdwSH/IPC

gdwSH/LearnOpenGL

gdwSH/libigl

gdwSH/osqp

gdwSH/peridigm

gdwSH/PositionBasedDynamics

gdwSH/Quasi-Newton-Methods-for-Real-time-Simulation-of-Hyperelastic-Materials

gdwSH/Shape-Matching-Element-Method

gdwSH/SPlisHSPlasH

gdwSH/SuiteSparse

gdwSH/suitesparse-metis-for-windows

gdwSH/taichi

gdwSH/vcpkg

gdwSH/zeno