haoxiangmiao Goto Github PK
Name: HIT_SNU_HXM
Type: User
Company: SNU
Bio: I turned my heart to the moon, but the moon shines on the ditch
Name: HIT_SNU_HXM
Type: User
Company: SNU
Bio: I turned my heart to the moon, but the moon shines on the ditch
This is my translation of Chinese document of Eigen
Ellipsis3d is a three-dimensional version of the particle-in-cell finite element code Ellipsis, a solid modeling code for visco-elastoplastic materials. The particle-in-cell method combines the strengths of the Lagrangian and Eulerian formulations of mechanics while bypassing their limitations.
Official git repository of Elmer FEM software
a voxel-based finite-element code to compute elastic moduli of porous structures
All benchmarks, examples and applications cases to be run by Kratos. Note that unit tests are in Kratos repository and NOT here
Cell centred code for explicit solid dynamics in OpenFOAM
FastAPI framework, high performance, easy to learn, fast to code, ready for production
github加速神器,解决github打不开、用户头像无法加载、releases无法上传下载、git-clone、git-pull、git-push失败等问题
Materials for my Computational Solid Mechanics course using Finite Element Analysis
Finite Element Analysis Library in Python
FEAPpv -- free personal version of the FEAP
Input data for FEAPpv program
A FEAture Selection Toolbox for C/C+, Java, and Matlab/Octave.
Finite Element Analysis Toolbox 3
FEATool Multiphysics - Physics Simulation Made Easy
FEATool Multiphysics - "Physics Simulation Made Easy" (Fully Integrated FEA, FEniCS, OpenFOAM, SU2 Solver GUI & Simulation Platform)
FEBio Suite Solver
FEBio is a nonlinear finite element solver that is specifically designed for biomechanical applications.
:gem: Feel++: Finite Element Embedded Language and Library in C++
FEE's Finite Element ElectroMagnetism software.
有限元程序 / Finite element method
Finite Element Modeling (FEM) Code: Python Tools, Field II Intensity Field Solution, LS-DYNA Pre/Post Processing
Project implementation for the course Nonlinear Finite Element Methods. Programmed mostly during October-November, 2019. Objective was to simulate linear isotropic plasticity,. This, altogether with the FEM fundamental routines and solvers, were programmed by the author. It was sought to provide functionality related to nonlinear FEM, many functions could be refactored, and the architecure has many obvious imrpovements.
Finite element method project for university.
JuliaFEM base package (core functionality)
FEMBasis contains interpolation routines for finite element function spaces. Given ansatz and coordinates of domain, shape functions are calculated symbolically in a very general way to get efficient code. Shape functions can also be given directly and in that case partial derivatives are calculated automatically.
A small C++ finite element method implementation developed as a part of my master's thesis
Finite Element Modeling Technology
A declarative, efficient, and flexible JavaScript library for building user interfaces.
🖖 Vue.js is a progressive, incrementally-adoptable JavaScript framework for building UI on the web.
TypeScript is a superset of JavaScript that compiles to clean JavaScript output.
An Open Source Machine Learning Framework for Everyone
The Web framework for perfectionists with deadlines.
A PHP framework for web artisans
Bring data to life with SVG, Canvas and HTML. 📊📈🎉
JavaScript (JS) is a lightweight interpreted programming language with first-class functions.
Some thing interesting about web. New door for the world.
A server is a program made to process requests and deliver data to clients.
Machine learning is a way of modeling and interpreting data that allows a piece of software to respond intelligently.
Some thing interesting about visualization, use data art
Some thing interesting about game, make everyone happy.
We are working to build community through open source technology. NB: members must have two-factor auth.
Open source projects and samples from Microsoft.
Google ❤️ Open Source for everyone.
Alibaba Open Source for everyone
Data-Driven Documents codes.
China tencent open source team.