An electronic device (e.g., smartphone) can be connected to an external display device, allowing the electronic device to display content on the external display device. The external display device can be a standalone display device or be part of another electronic device (e.g., a laptop or tablet). The electronic device supports multiple input styles including a gesture-based input style and a non-gesture-based input style. The electronic device adapts to the external display device by using the gesture-based input style if the external display device is touch enabled and using the non-gesture-based if the external display is not touch enabled. Additionally or alternatively, the external display device adapts to the input style being used by the electronic device by displaying an augmentation bar associated with the content and supporting the non-gesture-based input style when the external display device detects that the electronic device is using the gesture-based input style.

A display control device includes a first display capable of color display, a first controller performing reset control of the first display, and a second controller having less throughput than the first controller. The first controller executes reset control on the first display in a case of a first operation mode in which the first controller is active. The second controller executes reset control on the first display in a case of a second operation mode in which the first controller is inactive or in a case of detection of the first controller not operating normally.

Embodiments of the subject matter described herein relate to a wireless programmable media processing system. In the media processing system, a processing unit in a computing device generates a frame to be displayed based on a graphics content for an application running on the computing device. The frame to be displayed is then divided into a plurality of block groups which are compressed. The plurality of compressed block groups are sent to a graphics display device over a wireless link. In this manner, both the generation and the compression of the frame to be displayed may be completed at the same processing unit in the computing device, which avoids data copying and simplifies processing operations. Thereby, the data processing speed and efficiency is improved significantly.

The present disclosure provides a display device and a driving method thereof. The display device includes a transparent cover plate; a display module, positioned on a side of the transparent cover plate and including a first display module and a second display module which are independent of each other; a first display control circuit, positioned on a side, facing away from the transparent cover plate, of the display module, and configured to independently control the first display module; and a second display control circuit, positioned on the side, facing away from the transparent cover plate, of the display module, and configured to independently control the second display module.

An electronic device. The electronic device includes a first processor configured to generate a first display signal, and a second processor configured to generate a second display signal and output to a display area. The second processor includes a forwarding module, the first processor is connected to the forwarding module, and the first display signal generated by the first processor is output to the display area through the forwarding module.

This disclosure provides systems, devices, apparatus, and methods, including computer programs encoded on storage media, for parallelization of GPU composition with DPU topology selection. A processor may receive an indication of a plurality of application layers for composition at a first processor (e.g., a DPU) and a second processor (e.g., a GPU). The processor may select one or more first application layers of the plurality of application layers for attempted composition at the first processor and one or more second application layers of the plurality of application layers for composition at the second processor. The processor may transmit each of the one or more first application layers to the first processor for composition and each of the one or more second application layers to the second processor for composition.

A dual-system device and writing method and apparatus thereof, and interactive intelligent tablet includes a first system and a second system receiving touch data, where the data rendering speed of the first system is faster than that of the second system, and the data processing speed of the second system is faster than that of the first system; the first system acquiring data to be rendered from a target storage area, where the data to be rendered is generated by the second system according to the touch data and stored in the target storage area; the first system rendering the data to be rendered to obtain handwriting data to be displayed, and transmitting the handwriting data to be displayed to a display screen of the dual-system device for display. The disclosure solves the technical problem of writing delay of an external system when using dual-system to perform writing.

Methods and tiling engines for storing tiling primitives in a graphics processing system. The method includes: receiving a plurality of primitive blocks, each primitive block comprising one or more primitive sections, each primitive section comprising one or more primitives; for each primitive section of a received primitive block, determining which primitives of that primitive section fall, at least partially, within the bounds of a tile; for each primitive block that comprises at least one primitive that falls, at least partially, within the bounds of the tile, adding information to a display list for the tile that identifies the primitive block; for each identified primitive block, adding information to the display list identifying each primitive section of that primitive block that comprises at least one primitive that falls, at least partially within the bounds of the tile; and for each identified primitive section, adding information to the display list identifying the primitives in that primitive section that fall, at least partially, within the bounds of the tile.

A system for producing image frames for display at display device. The system includes graphics processing units including first graphics processing unit and second graphics processing unit that are communicably coupled to each other and pose-tracking means. Second graphics processing unit is configured to: process pose-tracking data, to determine device pose and velocity and/or acceleration with which device pose is changing; execute rendering application(s) to generate framebuffer data corresponding to image frame; and send, to first graphics processing unit, framebuffer data and information indicative of device pose and velocity and/or acceleration. First graphics processing unit is configured to: execute first compositing application to post-process framebuffer data, based at least on said information; and drive light source(s) using post-processed framebuffer data to display image frame.

An information handling system, including two or more single-slot M.2 modules; a dual-slot discrete graphics processing unit (dGPU) module; a printed circuit board, including: a plurality of M.2 connectors aligned on a same edge of the printed circuit board such that: a first single-slot M.2 module of the two or more single-slot M.2 modules is coupled to a first M.2 connector of the plurality of M.2 connectors; a second single-slot M.2 module of the two or more single-slot M.2 modules is coupled to a second M.2 connector of the plurality of M.2 connectors; and the dual-slot dGPU module is coupled to a third and a fourth M.2 connector of the plurality of M.2 connectors.