Kassiopeia
imc-der
| Kassiopeia | imc-der | |
|---|---|---|
| 2 | 1 | |
| 45 | 14 | |
| - | - | |
| 8.4 | 10.0 | |
| 6 days ago | over 1 year ago | |
| C++ | C++ | |
| GNU General Public License v3.0 or later | MIT License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
Kassiopeia
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Torax is a differentiable tokamak core transport simulator
If you have any interest in single-particle tracking for ion optics. I'd encourage you to check out https://github.com/KATRIN-Experiment/Kassiopeia. It can do both exact and adiabatic tracking of particles (and will solve for B and E-fields in complex electrode geometries). However, as far as I know it only handles static electric fields for now.
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Electric field around the Stanford bunny
This simulation was performed with our particle-tracking software Kassiopeia which contains a field calculation module. The streamlines and the moving surface are colored by electric potential; the other surfaces colors (bunny and surrounding box) represent the local charge density; and the streamlines follow the electric field.
imc-der
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Knots Smaller Than Human Hair Make Materials Unusually Tough
In general, the interesting properties of real ropes are not well-modeled by simulation. Dirt, abrasion, water, stress concentrations, and other real factors will dramatically impact the results you get out in the real world. That's why these things are experimentally verified and ropes used in safety-critical applications (are supposed to) have huge safety margins, regular monitoring, and ideally regular replacement. Use the manufacturer numbers for real ropes.
But if you just want to simulate ropes, there's a few models out there from academics going "let's try and model this difficult system more accurately". Take a look at stuff like imc-der [0] and ridgerunner [1].
[0] https://github.com/QuantuMope/imc-der
[1] https://jasoncantarella.com/wordpress/software/ridgerunner/
What are some alternatives?
stuntrally - Note: development continues in stuntrally3. 3D racing game based on VDrift and OGRE with own Track Editor. The main repository with Stunt Rally 2.x sources and data.
Knots - A tool for drawing 2d diagrams, 3d knots, Seifert surfaces. Computes some knot properties and invariants.
EventMolecularDynamics - A program implementing event driven molecular dynamics for hard smooth spheres, using OpenGL for displaying
SolarSystem - A solar system simulator with Verlet, using OpenGL for displaying.
QCSim - Quantum computing simulator
fdtd - A 3D electromagnetic FDTD simulator written in Python with optional GPU support
JoltPhysics - A multi core friendly rigid body physics and collision detection library, written in C++, suitable for games and VR applications.
u-track - Multiple-particle tracking designed to (1) track dense particle fields, (2) close gaps in particle trajectories resulting from detection failure, and (3) capture particle merging and splitting events resulting from occlusion or genuine aggregation and dissociation events
CHRONO - High-performance C++ library for multiphysics and multibody dynamics simulations