Why ray tracing?

Surpisingly, the primary reason is not for improving game graphics, but to reduce the complexity of the rendering pipeline. Over 30+ years, rasterization technology has become mind-numbingly complex. In contrast, ray tracing is refreshingly straightforward. But ray tracing can be slow. Rayve engine is exploring new RTX based techniques to overcome this barrier.

Simplicity

• No vertex processing
• No frustum culling
• No occlusion culling
• No overdraw reduction
• No draw calls
• No shadow mapping
• No environment or cube mapping
• No forward / deferred rendering
• No transparency ordering
• No level of detail meshes
• No depth buffers

Different to the core

Rayve delivers pure compute-based ray tracing straight to the display's frame buffer. There is no rasterization-style pipeline wrapper. OpenGL/DirectX is not used. Rayve uses a proprietary deterministic core rendering technology that does not require Monte Carlo methods, denoising or temporal frame tracking techniques. The rendering engine is extremely light weight.

Design

Rayve is accessed through a C language API, provided as a single C header and lib/dll.

Meticulously designed and coded from scratch using C++. Rayve's primary goal will always be simplicity and performance.

Even though ray tracing is used for rendering, the priority is high FPS over graphics fidelity, as the engine is intended for games and not photorealistic rendering.

Requirements

Windows 10 and up
Visual Studio 2022 required
Recent CPU with 4 cores or more
8gb or more memory
RTX capable GPU (Nvidia 3070 and up recommended)
Latest graphics driver