#cplusplus #3d_graphics #computer_graphics #cpp #gltf #graphics #path_tracer #path_tracing #physically_based_rendering #rendering
https://github.com/xelatihy/yocto-gl
https://github.com/xelatihy/yocto-gl
GitHub
GitHub - xelatihy/yocto-gl: Yocto/GL: Tiny C++ Libraries for Data-Driven Physically-based Graphics
Yocto/GL: Tiny C++ Libraries for Data-Driven Physically-based Graphics - xelatihy/yocto-gl
#cplusplus #3d #3d_perception #arm #computer_graphics #cpp #cuda #gpu #gui #machine_learning #mesh_processing #odometry #opengl #pointcloud #python #pytorch #reconstruction #registration #rendering #tensorflow #visualization
https://github.com/isl-org/Open3D
https://github.com/isl-org/Open3D
GitHub
GitHub - isl-org/Open3D: Open3D: A Modern Library for 3D Data Processing
Open3D: A Modern Library for 3D Data Processing. Contribute to isl-org/Open3D development by creating an account on GitHub.
#cuda #3d_reconstruction #computer_graphics #computer_vision #function_approximation #machine_learning #nerf #neural_network #real_time #real_time_rendering #realtime #signed_distance_functions
https://github.com/NVlabs/instant-ngp
https://github.com/NVlabs/instant-ngp
GitHub
GitHub - NVlabs/instant-ngp: Instant neural graphics primitives: lightning fast NeRF and more
Instant neural graphics primitives: lightning fast NeRF and more - NVlabs/instant-ngp
#cplusplus #3d #3d_graphics #c_plus_plus #computer_graphics #cpp #engine #fun #graphics #images #learning #opengl #picture #pixels #rasterizer #rendering #rendering_engine #rendering_pipeline #shaders #software_rendering #tutorial
https://github.com/ssloy/tinyrenderer
https://github.com/ssloy/tinyrenderer
GitHub
GitHub - ssloy/tinyrenderer: A brief computer graphics / rendering course
A brief computer graphics / rendering course. Contribute to ssloy/tinyrenderer development by creating an account on GitHub.
#cplusplus #computer_graphics #differentiable_programming #gpu #gpu_programming #sparse_computation #taichi
Taichi Lang is a powerful programming language for high-performance numerical computations. It is easy to use because it looks a lot like Python, so you don't need to learn a new language. Taichi Lang can run your code on both GPUs and CPUs, making it very fast. It also works on many different platforms, so you can write your code once and run it anywhere. This makes it great for things like real-time simulations, artificial intelligence, and visual effects in films and games. To get started, you can simply install it using `pip install taichi` and start coding right away. This helps you create complex simulations and computations quickly and efficiently.
https://github.com/taichi-dev/taichi
Taichi Lang is a powerful programming language for high-performance numerical computations. It is easy to use because it looks a lot like Python, so you don't need to learn a new language. Taichi Lang can run your code on both GPUs and CPUs, making it very fast. It also works on many different platforms, so you can write your code once and run it anywhere. This makes it great for things like real-time simulations, artificial intelligence, and visual effects in films and games. To get started, you can simply install it using `pip install taichi` and start coding right away. This helps you create complex simulations and computations quickly and efficiently.
https://github.com/taichi-dev/taichi
GitHub
GitHub - taichi-dev/taichi: Productive, portable, and performant GPU programming in Python.
Productive, portable, and performant GPU programming in Python. - taichi-dev/taichi