FOVEATED SCALING FOR RENDERING AND BANDWIDTH WORKLOADS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Jonathan Wicks of Superior CO (US)

Mark Sternberg of Toronto (CA)

Daniel Stan of Thomhill (CA)

Samuel Benjamin Holmes of Sterling MA (US)

FOVEATED SCALING FOR RENDERING AND BANDWIDTH WORKLOADS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17816976 titled 'FOVEATED SCALING FOR RENDERING AND BANDWIDTH WORKLOADS

Simplified Explanation

The patent application relates to methods and devices for graphics processing, specifically focusing on a non-linear foveated compression process for images associated with the graphics processing. The apparatus, such as a GPU or DPU, obtains at least one image from a set of images corresponding to a scene. It then performs a non-linear foveated compression process on the image, which involves continuous non-linear compression for a portion of the image. After the compression process, the apparatus transmits the compressed image.

• The patent application focuses on methods and devices for graphics processing.
• The apparatus, such as a GPU or DPU, obtains at least one image from a set of images associated with the graphics processing.
• The apparatus performs a non-linear foveated compression process on the image.
• The non-linear foveated compression process involves continuous non-linear compression for a portion of the image.
• The compressed image is then transmitted by the apparatus.

Potential Applications:

• This technology can be applied in various fields that require graphics processing, such as gaming, virtual reality, and augmented reality.
• It can be used in video streaming platforms to improve compression efficiency and reduce bandwidth requirements.
• Medical imaging applications can benefit from this technology by enhancing image compression and transmission in real-time.

Problems Solved:

• The non-linear foveated compression process addresses the challenge of efficiently compressing images while maintaining visual quality.
• It solves the problem of reducing bandwidth requirements for transmitting images without significant loss of information.
• This technology also tackles the issue of optimizing graphics processing performance by efficiently compressing images.

Benefits:

• The non-linear foveated compression process allows for improved compression efficiency, reducing storage and bandwidth requirements.
• It enables faster transmission of images without compromising visual quality.
• This technology enhances graphics processing performance by optimizing image compression and transmission.

Original Abstract Submitted

Aspects presented herein relate to methods and devices for graphics processing including an apparatus, e.g., a GPU or a DPU. The apparatus may obtain at least one image in a set of images corresponding to a scene associated with the graphics processing. The apparatus may also perform a non-linear foveated compression process on the at least one image, where the non-linear foveated compression process corresponds to a continuous non-linear compression for a portion of the at least one image. The apparatus may also transmit the at least one image after the non-linear foveated compression process, such that the transmitted at least one image corresponds to at least one compressed image.