This is wild: #FluidX3D can "SLI" together 🔵 #Intel Arc A770 + 🟢 #Nvidia Titan Xp, pooling 12GB+12GB of their VRAM for one large 450M cell #CFD simulation. Top half on A770, bottom half on Titan Xp. They seamlessly communicate over PCIe. Performance is ~1.7x of what either #GPU could do on its own. 🖖😋🖥🔥 #OpenCL shows its true power here - one implementation works on literally all GPUs at full performance, even at the same time. Happy #SimulationFriday! https://youtu.be/PscbxGVs52o
#FluidX3D has passed 2000 Stars! It is the most popular #CFD software on #GitHub now! 🖖😊⭐️ https://github.com/ProjectPhysX/FluidX3D
Feeling blessed that my work is useful to so many people across the globe, with users in 75 countries already! 🌍
42% EU, 30% Americas, 25% Asia, 3% Oceania+Africa
The red lightning bolt continues: #FluidX3D has passed 3000 Stargazers on #GitHub - from 82 countries! 🖖🥳⭐
Releasing this software for free really has turned out win-win: I've received so much valuable feedback, and answered with as many bug fixes and updates, with many more to come. I am enabling cutting-edge #CFD simulations for everyone, with very little hardware resources, on literally every computer that has a #GPU, regardless of vendor.
👉 https://github.com/ProjectPhysX/FluidX3D #SimulationFriday#OpenCL
It's #SimulationFriday again! Here is a real time @FluidX3D#CFD simulation of a #Cessna 172, 20M cells, on my old Titan Xp Pascal #GPU. 33 lines of code for this setup.
For #FluidX3D v2.8 I'm improving composite geometries with moving parts, and I'm adding transparent rendering. https://youtu.be/Gd_MEHPecw0