Embodiments provide for a graphics processing apparatus comprising a graphics processing unit having fixed point logic to convert YUV encoded image data to RGB encoded image data. In one embodiment the fixed point logic includes a set of fixed function logic circuits to compute a set of fixed point approximations of specified floating point color space conversion coefficients during the conversion of the YUV encoded image date to the RGB encoded image data.

An electronic device includes a display panel and image processing circuitry. The image processing circuitry receives input image data corresponding to an image to display on the display panel, modifies the input image data by executing a first context task (e.g., lower priority task), and receives a context switch request. The image processing circuitry also pauses modification of the input image data by pausing execution of the first context task and then switches to modifying the input image data by executing a second context task (e.g., higher priority task).

Systems and methods consistent with the present disclosure may be utilized to negate the distinction between a display device operating in video and command modes in that commands associated with either mode are prioritized and executed according to a command scheduler consistent with the present disclosure. A command scheduler consistent with the present disclosure includes a display driver stack and a scheduler coupled to the display driver stack. The scheduler is configured to receive commands from the driver stack. Further, the scheduler is configured to queue and schedule the commands to be executed during a boot environment and during runtime. A host controller may also be coupled to the scheduler and may receive at least one of the commands from the scheduler. In time, the host controller transfers the commands to a device for execution.

A system is described which comprises an input arranged to receive attention tracking data from attention tracking hardware. The attention tracking data, along with parameters associated with each display change request, is then used to select a display change request from a plurality of stored display change requests received from a plurality of different applications and a change defined by the selected display change request is then rendered in a GUI on a display device.

The present disclosure relates to method, systems, and non-transitory computer-readable media for generating and configuring a digital stream of video content from a stream-transmitting computing device to include interactive graphical elements that are adjustable by viewer computing devices participating in the digital stream. For example, in one or more embodiments, the disclosed systems receive user input from the stream-transmitting computing device that identifies visual attributes of a graphical element that are adjustable via viewer inputs. In one or more embodiments, the disclosed systems provide the graphical elements within the video content and collect the viewer inputs that adjust the graphical element in accordance with the identified visual attributes. Further, the disclosed systems aggregate and visualize the collected viewer inputs in a graphical presentation.

An information processing method applied to an electronic device includes monitoring whether the target application is abnormal in response to a target application being started when the electronic device is in a target display mode, and in response to the target application being abnormal, switching a window of the target application from a first window display mode to a second window display mode such that the target application adapts to a target display mode. In the target display mode, the window of the target application is in the first window display mode indicated by the target display mode.

According to one aspect of the present disclosure, an information processing apparatus comprises at least one memory and at least one processor which function as: a display unit configured to perform control to display a window displayed by application software; and a control unit configured to perform control to, in response to execution of a particular operation corresponding to an operation to provide an instruction for execution of a particular process, display a predefined display content while displaying the window without executing the particular process, wherein the control unit is further configured to perform control to, in response to occurrence of the particular operation, display a predetermined display item for a predetermined time before displaying the predefined display content and then display the predefined display content, and the predetermined display item indicates that processing latency is ongoing.

Systems, apparatuses, and methods for implementing a timestamp based display update mechanism. A display control unit includes a timestamp queue for storing timestamps, wherein each timestamp indicates when a corresponding frame configuration set should be fetched from memory. At pre-defined intervals, the display control unit may compare the timestamp of the topmost entry of the timestamp queue to a global timer value. If the timestamp is earlier than the global timer value, the display control unit may pop the timestamp entry and fetch the frame next configuration set from memory. The display control unit may then apply the updates of the frame configuration set to its pixel processing elements. After applying the updates, the display control unit may fetch and process the source pixel data and then drive the pixels of the next frame to the display.

A method of presenting visual information on a screen (306) involves defining a boundary (314) delineating a first region of the screen (which may be towards a centre of the screen) from a second region of the screen (which may be towards a periphery of the screen), displaying a first portion of the visual information in the first region of the screen at a first display quality, and displaying a second portion of the visual information in the second region of the screen at a second, lower, display quality. The method further involves blurring the visual information for display in at least a portion of the second region. The location of the boundary (314) may change over time, and may be based on where a user is looking, or is expected to be looking, or on the type of information being displayed or based on other parameters.

A method provides pre-rendered information messages for display by a peripheral display unit connected to a base station over a data link. The method involves detecting that a data connection between the base station and the peripheral display unit is available, sending pre-rendered information messages from the base station to the peripheral display unit, and storing the pre-rendered information messages at the peripheral display unit for display in response to a status detected at the peripheral display unit. The base station may perform the pre-rendering of information messages in response to variation in configuration information relating to the peripheral display unit. The pre-rendered information messages may be paired with peripheral display unit statuses and the peripheral display unit may be configured so that, in the event that a particular status is detected, the corresponding pre-rendered information message is displayed without requiring data transmission from the base station.