Render

Creating a compute shader to process a million of particles.

Creating a compute shader that processes a read-write texture on GPU (without CPU).

Demonstration of how to draw visualizer elements taking the depth buffer into account.

Demonstration of how to access G-buffer textures during the rendering process.

Demonstration of how to modify G-buffer textures during the rendering process.

Rendering to a texture by using the RenderTarget class.

LiDAR is a method used in robot vacuum cleaners, drones, self-driving cars, etc. for optical scanning of surroundings. This sample contains the LiDAR emulation that can be used for training autopilots and AI. A quick and accurate scaner is implemented using the depth buffer. You can configure your LiDAR (set the desired range, FOV, resolution, and other parameters) via API.

Running in the background mode, the sample demonstrates graphics context creation, screenshots are periodically saved to the saved_image folder (DirectX only).

Grabbing a final image from the rendering sequence.

Creating a simple DXT compression by using structured buffers.

Creating a plugin for changing textures on meshes.