A vehicular device includes multiple CPU modules, multiple cache memories allocated to the CPU modules, respectively, and a memory synchronization unit configured to synchronize multiple surfaces drawn in the multiple cache memories. The memory synchronization unit divides the surfaces to be synchronized into multiple tiles, and sequentially synchronize the divided tiles from tiles for which drawing has been completed.

An application processor includes a main processor and a display controller controlled by the main processor. The display controller controls a display device that is located outside the application processor and operates based on a variable frame rate scheme, receives an event signal associated with a frame update of the display device, adjusts a frame rate of the display device based on the event signal, records timing information associated with the frame update of the display device based on the event signal, and provides the timing information to the main processor.

An application processor includes a main processor and a display controller controlled by the main processor. The display controller controls a display device that is located outside the application processor and operates based on a variable frame rate scheme, receives an event signal associated with a frame update of the display device, adjusts a frame rate of the display device based on the event signal, records timing information associated with the frame update of the display device based on the event signal, and provides the timing information to the main processor.

Systems, apparatuses and methods may provide for technology to improve an appearance of objects that enter a viewable area of a 360-degree video. The technology may include a head mounted display (HMD), a viewport comprising a viewable area within the HMD, and a memory to store objects of interest not currently in the viewable area.

Systems, apparatuses and methods may provide for technology to improve an appearance of objects that enter a viewable area of a 360-degree video. The technology may include a head mounted display (HMD), a viewport comprising a viewable area within the HMD, and a memory to store objects of interest not currently in the viewable area.

The display device includes: a flexible display panel including a display portion in which scanning lines and signal lines cross each other; a supporting portion for supporting an end portion of the flexible display panel; a signal line driver circuit for outputting a signal to the signal line, which is provided for the supporting portion; and a scanning line driver circuit for outputting a signal to the scanning line, which is provided for a flexible surface of the display panel in a direction which is perpendicular or substantially perpendicular to the supporting portion.

Disclosed herein are system, method, and computer program product embodiments for modifying graphics rendering by transcoding a serialized command stream. An embodiment operates by receiving a command configured to instruct an API to render a graphics element. The embodiment further operates by generating, based on the command, a transcoded command configured to instruct the API to render a modified graphics element by applying a set of modification factors to a portion of the command. Subsequently, the embodiment operates by transmitting the transcoded command to the API.

Disclosed herein are system, method, and computer program product embodiments for modifying graphics rendering by transcoding a serialized command stream. An embodiment operates by receiving a command configured to instruct an API to render a graphics element. The embodiment further operates by generating, based on the command, a transcoded command configured to instruct the API to render a modified graphics element by applying a set of modification factors to a portion of the command. Subsequently, the embodiment operates by transmitting the transcoded command to the API.

This disclosure provides systems, devices, apparatus, and methods, including computer programs encoded on storage media, for a smart compositor module. A display processor may obtain a plurality of layers associated with at least one frame in a scene. The display processor may identify a composition capability of a first portion of at least one DPU and a second portion of the at least one DPU. The display processor may allocate at least one first layer of the plurality of layers to the first portion of the at least one DPU and at least one second layer of the plurality of layers to the second portion of the at least one DPU. The display processor may compose the at least one first layer at the first portion of the at least one DPU and the at least one second layer at the second portion of the at least one DPU.

In an example display system, a range of colors around a region may be identified and compared to a color of the region with respect to a perception threshold. In that example, a modification of the color within the region may be determined based on the range of colors around the region and a display may be caused to present the region in a modified color based on the range of colors around the region with respect to the perception threshold.