nanoR4K's Stars
anuraghazra/github-readme-stats
:zap: Dynamically generated stats for your github readmes
ProjectPhysX/FluidX3D
The fastest and most memory efficient lattice Boltzmann CFD software, running on all GPUs via OpenCL. Free for non-commercial use.
risinek/esp32-wifi-penetration-tool
Exploring possibilities of ESP32 platform to attack on nearby Wi-Fi networks.
morrownr/88x2bu-20210702
Linux Driver for USB WiFi Adapters that are based on the RTL8812BU and RTL8822BU Chipsets - v5.13.1
jesyspa/linear-cpp
An attempt at a C++ tutorial.
morrownr/88x2bu
Linux Driver for USB WiFi Adapters that are based on the RTL8812BU and RTL8822BU Chipsets
SimFlowCFD/RapidCFD-dev
RapidCFD is an OpenFOAM fork running fully on CUDA platform. Brought to you by
AMReX-Astro/Castro
Castro (Compressible Astrophysics): An adaptive mesh, astrophysical compressible (radiation-, magneto-) hydrodynamics simulation code for massively parallel CPU and GPU architectures.
hystrath/hyStrath
Hypersonic / Rarefied gas dynamics code developments (GPL-3.0)
hiruna/wifi-txpower-unlocker
loliverhennigh/Computational-Physics-and-Machine-Learning-Reading-List
A list of papers relating Computational Physics and Machine Learning
alexkenan/pymae
Materials for the book "Python for Mechanical and Aerospace Engineering"
XanaduAI/Xanadu-Quantum-Codebook
Learn quantum computing interactively with PennyLane
morrownr/Monitor_Mode
DLR-RY/caseFoam
Automated setup and analysis of OpenFOAM Cases
lucasbpro/aircraft-engine-modeling
This project models the steady-state behavior of three different types of aircraft engines: turbojet, turbofan and ramjet. It allows the study of their performance at different operating conditions.
giovgiac/TensorNewtonRaphson
An implementation of the numerical method for root finding of Newton-Raphson using TensorFlow for automatic derivative calculation and possibility for CUDA acceleration.
Jootiinha/IC-dsmcFoam
risinek/Cheatsheets-1
Penetration Testing/Security Cheatsheets
benschneider/Dynamical-Casimir-Effect-Sim
Dynamical Casimir effect simulation model, for a fast changing electromagnetic boundary. Takes first orders into account. Taking some approximations, for example, here I am neglecting frequencies higher than the superconducting gap frequency. Also neglecting the SQUID Rabi oscillations. The approximations should be accurate for small pump powers (i.e. Phi_AC+Phi_DC < 0.5)
chonger878/LiteratureReviewAPI
FerDev438/st-flutter-project
KetpuntoG/QFilters
scramjetFoam/List-of-Open-Source-Codes