[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"project-3283":3},{"id":4,"name":5,"fullName":6,"owner":7,"repo":5,"description":8,"homepage":9,"htmlUrl":10,"language":11,"languages":10,"totalLinesOfCode":10,"stars":12,"forks":13,"watchers":14,"openIssues":15,"contributorsCount":16,"subscribersCount":16,"size":16,"stars1d":17,"stars7d":18,"stars30d":19,"stars90d":16,"forks30d":16,"starsTrendScore":20,"compositeScore":21,"rankGlobal":10,"rankLanguage":10,"license":22,"archived":23,"fork":23,"defaultBranch":24,"hasWiki":23,"hasPages":25,"topics":26,"createdAt":10,"pushedAt":10,"updatedAt":32,"readmeContent":33,"aiSummary":34,"trendingCount":16,"starSnapshotCount":16,"syncStatus":35,"lastSyncTime":36,"discoverSource":37},3283,"WebGL-Fluid-Simulation","PavelDoGreat\u002FWebGL-Fluid-Simulation","PavelDoGreat","Play with fluids in your browser (works even on mobile)","https:\u002F\u002Fpaveldogreat.github.io\u002FWebGL-Fluid-Simulation\u002F",null,"JavaScript",16390,1884,209,61,0,6,11,75,21,94.83,"MIT License",false,"master",true,[27,28,29,30,31],"fluid","gpu","navier-stokes","simulation","webgl","2026-06-12 04:00:17","# WebGL Fluid Simulation\n\n[Play here](https:\u002F\u002Fpaveldogreat.github.io\u002FWebGL-Fluid-Simulation\u002F)\n\n\u003Cimg src=\"\u002Fscreenshot.jpg?raw=true\" width=\"880\">\n\n## References\n\nhttps:\u002F\u002Fdeveloper.nvidia.com\u002Fgpugems\u002Fgpugems\u002Fpart-vi-beyond-triangles\u002Fchapter-38-fast-fluid-dynamics-simulation-gpu\n\nhttps:\u002F\u002Fgithub.com\u002Fmharrys\u002Ffluids-2d\n\nhttps:\u002F\u002Fgithub.com\u002Fhaxiomic\u002FGPU-Fluid-Experiments\n\n## License\n\nThe code is available under the [MIT license](LICENSE)\n","WebGL Fluid Simulation 是一个基于浏览器的流体模拟项目，甚至可以在移动设备上运行。该项目利用 WebGL 技术在 GPU 上实现了 Navier-Stokes 方程的快速求解，从而能够高效地渲染出逼真的流体动态效果。其核心功能包括流体粒子的实时交互、颜色混合以及流动轨迹的可视化等。适合用于教育演示、游戏开发或者任何需要展示流体物理特性的场景中，帮助用户更好地理解和体验流体力学的基本原理与视觉效果。",2,"2026-06-11 02:53:20","top_language"]