elvissoares
Physicist, PostDoc Researcher at ATOMS/UFRJ interested in Colloidal Systems, Electrolyte Solutions and Theory of Liquids.
@atoms-ufrj Rio de Janeiro, Brazil
elvissoares's Stars
KindXiaoming/pykan
Kolmogorov Arnold Networks
facebookresearch/nougat
Implementation of Nougat Neural Optical Understanding for Academic Documents
yang-song/score_sde_pytorch
PyTorch implementation for Score-Based Generative Modeling through Stochastic Differential Equations (ICLR 2021, Oral)
GeostatsGuy/DataScienceInteractivePython
Python interactive dashboards for learning data science
pnnl/neuromancer
Pytorch-based framework for solving parametric constrained optimization problems, physics-informed system identification, and parametric model predictive control.
quantum-visualizations/qmsolve
⚛️ A module for solving and visualizing the Schrödinger equation.
lgienapp/aquarel
Styling matplotlib made easy
MilesCranmer/SymbolicRegression.jl
Distributed High-Performance Symbolic Regression in Julia
google-deepmind/uncertain_ground_truth
Dermatology ddx dataset, Jax implementations of Monte Carlo conformal prediction, plausibility regions and statistical annotation aggregation from our recent work on uncertain ground truth (TMLR'23 and ArXiv pre-print).
flaport/fdtd
A 3D electromagnetic FDTD simulator written in Python with optional GPU support
gmongaras/Diffusion_models_from_scratch
Creating a diffusion model from scratch in PyTorch to learn exactly how they work.
dfm/tinygp
The tiniest of Gaussian Process libraries
JosephBARBIERDARNAL/pypalettes
A large (+2500) collection of color maps for Python
Quantum-Accelerators/quacc
quacc is a flexible platform for computational materials science and quantum chemistry that is built for the big data era.
Ryota-Kawamura/How-Diffusion-Models-Work
In How Diffusion Models Work, you will gain a deep familiarity with the diffusion process and the models which carry it out. More than simply pulling in a pre-built model or using an API, this course will teach you to build a diffusion model from scratch.
profConradi/Python_Simulations
Various Python Simulations
kolibril13/ipyblender-experimental
Blender in Jupyter.
phys-sim-book/mdbook-src
The mdbook source of a free online book on the theory and algorithms of physics-based simulations. You are welcome to make contributions by submitting pull requests or directly contacting the authors.
pmocz/cfd-comparison-python
Comparison of various numerical methods for computational fluid dynamics
tjz21/DFT_PIB_Code
Interactive Jupyter Notebooks for learning the fundamentals of Density-Functional Theory (DFT)
pmocz/sph-python
Smoothed-Particle Hydrodynamics simulation of Toy Star
drgreen/Phys_105B_S23
BradyAJohnston/NotebookConnector
An add-on to use Blender interactively inside of Jupyter Notebooks.
simongravelle/GOMC-inputs
Input script for Monte Carlo (GCMC) simulations
mdcourse/mdcourse.github.io
Learn molecular simulation with Python
mjtcosta/DFT-UFF
Um curso de Teoria do Funcional da Densidade (DFT)
lucas-j-santos/LJS-cDFT
A cDFT-PC-SAFT package in Python using PyTorch
dborgis/mdft-dev_general
delpapa/sandpilemodel
A basic python implementation of the Bak–Tang–Wiesenfeld model
maxlevesque/hankel-transform
This program computes the numerical Fourier transform of a spherically symetric function in 3-dimensions, often called the Hankel transform.