senpai
NBodySimulator.jl
senpai | NBodySimulator.jl | |
---|---|---|
3 | 2 | |
84 | 124 | |
- | 0.8% | |
0.0 | 4.9 | |
almost 3 years ago | 5 days ago | |
C | Julia | |
GNU General Public License v3.0 only | GNU General Public License v3.0 or later |
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senpai
- SENPAI - A FOSS molecular dynamics simulator made with lots of love in C
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Anarchist software and science. Let's build free scientific software together.
Before my radicalisation to anarchism, I started work on SENPAI and released it as MIT software. I wanted to make computational chemistry free and open source to liberate the field.
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About to shove it all in 4U. Molecular dynamics simulation server.
I'm using my own software! It started out based on the AMBER force fields but it quickly evolved into its own thing. It's called SENPAI, and while I stopped pushing to GitHub like a year or so ago, I didn't remove it from there and its source is available -> https://github.com/Garuda1/senpai
NBodySimulator.jl
- How Good Is Julia for AI, Machine Learning, And Simulations?
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What's the best/easiest way of starting with Julia?
Ah, like the N-body problem? That certainly sounds doable, but not super in my wheelhouse. Plenty of differential equation packages, and I know there are some cool animation/visual packages. I've even seen some that are interactive, so you could possibly on a plot see what changing the parameters does in-time. Neat stuff. Have fun! Maybe start by recreating the 2- or 3-body problem, as I'm sure that's been done and probably can be found with some searching. (I just saw this too, may be relevant https://github.com/SciML/NBodySimulator.jl ) Julia is a joy to use, in my opinion.
What are some alternatives?
lammps - Public development project of the LAMMPS MD software package
Enzyme.jl - Julia bindings for the Enzyme automatic differentiator
SENPAI - Molecular dynamics simulation software
ForwardDiff.jl - Forward Mode Automatic Differentiation for Julia
polymer_chain - LAMMPS files to simulate a small polyurethane chain
Astrodynamics.jl - A Fresh Approach to Astrodynamics
jill.py - A cross-platform installer for the Julia programming language
Molly.jl - Molecular simulation in Julia
OrbitalTrajectories.jl - OrbitalTrajectories.jl is a modern orbital trajectory design, optimisation, and analysis library for Julia, providing methods and tools for designing spacecraft orbits and transfers via high-performance simulations of astrodynamical models.
AstroDynPropagators.jl - Trajectory Propagators for Astrodynamics.jl