TEMPORAL GRADIENTS OF HIGHER ORDER EFFECTS TO GUIDE TEMPORAL ACCUMULATION

Organization Name

Intel Corporation

Inventor(s)

Anton Kaplanyan of Mercer Island WA (US)

Tobias Zirr of Karlsruhe (DE)

TEMPORAL GRADIENTS OF HIGHER ORDER EFFECTS TO GUIDE TEMPORAL ACCUMULATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17949914 titled 'TEMPORAL GRADIENTS OF HIGHER ORDER EFFECTS TO GUIDE TEMPORAL ACCUMULATION

Simplified Explanation

The patent application describes a graphics processor that can generate auxiliary motion vectors for advanced light-based effects in computer graphics, such as shadows, reflections, waves, glossy surfaces, and transparent/refractive glass.

• The graphics processor includes specialized circuitry to generate auxiliary motion vectors for complex light effects.
• These auxiliary motion vectors help create realistic and immersive visual effects like shadows, reflections, waves, and glossy surfaces.
• The circuitry applies light path constraints to simplify the calculations required for generating the auxiliary motion vectors.
• By simplifying the calculations, the graphics processor can efficiently generate the auxiliary motion vectors, improving the overall performance of the graphics system.

Potential Applications

This technology can find applications in various fields where realistic computer graphics are required, such as:

• Video games - Enhancing the visual quality and realism of game environments, characters, and effects.
• Virtual reality (VR) - Creating more immersive and believable virtual worlds.
• Animation and film production - Improving the visual effects and realism in animated movies and visual effects sequences.
• Architectural visualization - Enhancing the realism of virtual architectural models and walkthroughs.
• Product design and visualization - Creating realistic renderings and visualizations of products before manufacturing.

Problems Solved

The graphics processor addresses several challenges in generating advanced light-based effects:

• Complex calculations - Generating realistic shadows, reflections, waves, and other effects requires complex calculations that can be computationally intensive.
• Performance limitations - Traditional graphics processors may struggle to handle the computational demands of advanced light effects, leading to reduced performance and visual quality.
• Simplifying calculations - By applying light path constraints, the graphics processor simplifies the calculations required for generating auxiliary motion vectors, improving efficiency and performance.

Benefits

The use of this graphics processor offers several benefits:

• Realistic visual effects - The auxiliary motion vectors enable the creation of more realistic and immersive light-based effects, enhancing the overall visual quality of computer graphics.
• Improved performance - By simplifying calculations and efficiently generating auxiliary motion vectors, the graphics processor can deliver better performance, allowing for smoother and more responsive graphics rendering.
• Enhanced user experience - The advanced light effects contribute to a more immersive and engaging user experience in applications such as gaming, virtual reality, and architectural visualization.
• Time and cost savings - The simplified calculations and improved performance of the graphics processor can potentially reduce the time and resources required for generating high-quality computer graphics.

Original Abstract Submitted

A graphics processor is provided that includes circuitry configured to generate auxiliary motion vectors for higher-order light-based effects such as shadows, objects reflecting in mirrors, waves in water or other liquids, glossy surfaces, or objects visible through transparent and/or refractive glass. The circuitry is configured to apply light path constraints to simplify the calculations used to generate the auxiliary motion vectors.