A coupling library for partitioned multi-physics simulations, including, but not restricted to fluid-structure interaction and conjugate heat transfer simulations.
-
Updated
Nov 8, 2024 - C++
A coupling library for partitioned multi-physics simulations, including, but not restricted to fluid-structure interaction and conjugate heat transfer simulations.
SPHinXsys provides C++ APIs for engineering simulation and optimization. It aims at complex systems driven by fluid, structure, multi-body dynamics and beyond. The multi-physics library is based on a unique and unified computational framework by which strong coupling has been achieved for all involved physics.
Advanced Simulation Library - hardware accelerated multiphysics simulation platform.
Python bindings for OpenCASCADE via pybind11.
Mesh module from the Salome Platform
Airframe Finite Element Modeler
EDA Schematic Capture and Simulation powered by NgSpice
A coupled structural solver written with the C++ finite element library deal.II
This is Circuit Solver which can solve any kind of circuit for you. Do check it out!!
Collection of finite element models
Python modules for working with Adams models and data.
SysADL Studio implements an Eclipse plug-in for SysADL Language, allowing both textual and graphical description, also supporting model simulation.
FEDES is a Finite Element Data Exchange System for mapping finite element analysis data between different FE solvers and meshes with different element types and densities. Six commercial FE solvers are supported (ABAQUS, ANSYS, DEFORM, MARC, MORFEO, VULCAN). The FEA data outputted can be visualized with the open source program ParaView.
EDA Schematic Capture and Simulation powered by NgSpice
An open-source SciML tool for automated design evaluation & optimization using CFD based analysis
Program translates MSC Nastran Cquad elements with 1D Crod on leading edge to CAERO1 elements with generation of d2wgj, wkk and f2gj matricles.
Allows users to concisely specify and execute a large number of tasks with complex and co-dependent input parameter variations
A python tool that converts a (general purpose) Finite Element Model to a VTK model
Minimal 2D implementation of the finite element method
Shant Gananian - Portfolio, Case Studies, About
Add a description, image, and links to the computer-aided-engineering topic page so that developers can more easily learn about it.
To associate your repository with the computer-aided-engineering topic, visit your repo's landing page and select "manage topics."