Pinned Repositories
BJUT
CppAdWrapper
DifferentiableGeodesics
Code for our Siggraph 24 Paper Differentiable Geodesic Distance for Intrinsic Minimization on Triangle Meshes
LETO
LETO is a new hybrid Lagrangian-Eulerian method for topology optimization. It transfers density information from movable Lagrangian carriers to a fixed set of Eulerian quadratures and solves force equilibrium with MPM. With carrier particles as design variables, LETO reparameterizes the Eulerian solution space in a Lagrangian view.
liyuesolo.github.io
NeuralMetamaterialNetwork
Cpp and python code for our SIGGRPAH Asia 2023 paper Neural Metamaterial Network for Nonlinear Material Design
ntopo-1
A Mesh-free Topology Optimization Method using Neural Representations
ProgrammableDigitalWeaves
Cpp and GCode for Programmable Digital Weaves
RCM_on_meshes
Wukong2024
Research Codebase | Constantly Updating
liyuesolo's Repositories
liyuesolo/DifferentiableGeodesics
Code for our Siggraph 24 Paper Differentiable Geodesic Distance for Intrinsic Minimization on Triangle Meshes
liyuesolo/NeuralMetamaterialNetwork
Cpp and python code for our SIGGRPAH Asia 2023 paper Neural Metamaterial Network for Nonlinear Material Design
liyuesolo/Wukong2024
Research Codebase | Constantly Updating
liyuesolo/ProgrammableDigitalWeaves
Cpp and GCode for Programmable Digital Weaves
liyuesolo/ntopo-1
A Mesh-free Topology Optimization Method using Neural Representations
liyuesolo/BJUT
liyuesolo/LETO
LETO is a new hybrid Lagrangian-Eulerian method for topology optimization. It transfers density information from movable Lagrangian carriers to a fixed set of Eulerian quadratures and solves force equilibrium with MPM. With carrier particles as design variables, LETO reparameterizes the Eulerian solution space in a Lagrangian view.
liyuesolo/liyuesolo.github.io
liyuesolo/CppAdWrapper
liyuesolo/RCM_on_meshes
liyuesolo/template-ieee-transactions
liyuesolo/SuiteSparse
The official SuiteSparse library: a suite of sparse matrix algorithms authored or co-authored by Tim Davis, Texas A&M University.
liyuesolo/VoronoiCellSim