This application relates to performing seamless video transitions at a display panel when a video stream changes resolution and/or scale. The video stream can be provided by a host device to a timing controller (TCON). When a parameter of the video stream is going to change, the host device can cause the TCON to enter a panel self refresh (PSR) mode. During the PSR mode, the TCON can drive the display panel using an image frame stored in a memory of the TCON. Additionally, during the PSR mode, the host device can adjust a scaler and/or resolution associated with the TCON. Once the host device has finished adjusting the TCON, the TCON can exit the PSR mode and the host device can provide a new data stream to the TCON without any apparent display artifacts being output by the display panel.

A system and method are provided for accelerated graphic rendering a view of a design layout view represented by a plurality of graphic objects defined by respective geometry data therefor. A database stores the geometry data having location and geometric portions. A large object module actuates retrieval of the geometry data for each of the graphic objects within the view selectively classified to be a large object. A small object module actuates partial retrieval of the geometry data for each of the graphic objects within the view selectively classified to be a small object, the location portion being thereby retrieved exclusive of the geometric portion of the geometry data for each small object. A rendering control module generates a composite image of the design layout view for display, which includes a geometric reproduction of each large object and an abstracted representation of each small object within the view.

The present invention discloses a Mura offset data input device, including a Mura offset chip, a first memory unit, a second memory unit, a connector and a control circuit, the Mura offset chip is connected to the first memory unit, the second memory unit and the connector, the connector and the first memory unit are connected, the connector and the second memory unit are connected by the control circuit, the first memory unit and the second memory unit both include two operative modes—an editable mode and a read-only mode, the control circuit is applied to control the first memory unit and the second memory unit that are in different modes, the connector is applied to transfer first data to the first memory unit when the first memory unit is editable, and transfer second data to the second memory unit by the Mura offset chip.

Disclosed are systems, methods, and non-transitory computer-readable media for reducing latency in augmented reality displays. A display controller receives, from a GPU, a stream of image pixels of a frame of virtual content to be presented on a display of a display device. The stream of image pixels is received via a high-speed bulk interface that transfers data at least as fast as can be consumed by the display. As the stream of image pixel is received, the display controller converts each respective image pixel from a data format used to transmit the stream of image pixels via the high-speed bulk interface to a data format that is compatible for display by the display. Each converted image pixel is stored in a pixel cell of the display, after which the frame is presented on the display.

Disclosed are a signal processing device and an image display apparatus including the same. The signal processing device of an embodiment of the present disclosure includes: a quality calculator configured to calculate an source quality of an image signal received from an external settop box or a network; an image quality setter configured to set an image quality of the image signal based on the calculated source quality; and an image quality processor configured to perform image quality processing on the image signal based on the set image quality, wherein in response to the source quality of the received image signal being changed at a first time point, the image quality setter changes an image quality setting sequentially from a first setting to a second setting; and based on the image quality setting, the image quality processor performs image quality processing. Accordingly, flicker may be reduced when an image quality is changed due to a change in the source quality of the received image signal.

A display device, a data driving circuit and a display panel capable of displaying YCbCr image data as WRGB image data while simplifying the structure of the data driving circuit and the display panel are discussed. The display device includes a display panel in which pixels including a white subpixel and a colored subpixel are arranged in a matrix form, and subpixels are disposed in a region where gate lines extending in a first direction and data lines extending in a second direction intersect, a gate driving circuit driving the gate lines, a data driving circuit driving the data lines, and a timing controller for controlling the gate driving circuit and the data driving circuit. In the display panel, a luminance data voltage is applied to the white subpixel, and a same data voltage is applied to two colored subpixels adjacent in the first direction.

An image display device includes: a signal input unit to which a first signal or a second signal is supplied using a signal cable in accordance with prescribed setting information, the signal cable having a plurality of transmission lines of prescribed transmission characteristics; a transmission line control unit configured to change a destination to which a signal is supplied using the plurality of transmission lines, in accordance with a transmission line setting for setting at least a portion of the plurality of transmission lines as transmission lines which transmit the first signal; an image control unit configured to generate an image signal from the first signal supplied using the transmission lines in accordance with a transmission format setting for designating a format for transmitting the first signal using the transmission lines; and a setting control unit configured to change the transmission line setting and the transmission format setting.

An exemplary computer console can generate one or more video streams having image data relating to an image or a series of images, also referred to as video, to be presented by an electronic display device. The exemplary computer console can provide the one or more video streams to the electronic display device over one or more transport streams. The exemplary computer console can effectively throttle a video stream bitrate of the one or more video streams to be less than of the standard defined transport stream bitrate of the one or more transport streams to allow the transport of the one or more video streams over the one or more transport streams.

A method and system are configured to generate user-specific information, such as wager-related information, for display on one or more display devices of a user. The system is configured to use factors, such as user preferences, user activity information, user location, user group information and/or a configuration of the user's display device(s), to generate, from a set of wager-related information such as a set of available bets, the user-specific information, such as a specific sub-set of the information or bets.

The present specification discloses a display device which, upon consecutive viewing of images of different frequencies, may improve abnormalities on a screen according to frequency change, and a method for controlling same. A digital device, according to one embodiment of the present invention, comprises: a processor; a display unit comprising a plurality of pixels; and a timing controller for temporally controlling a driving frequency such that the display device is driven, wherein the timing controller controls a light-emitting signal at a preset duty ratio in one frame interval, and when the display unit displays an image of a first input frequency and thereafter displays an image of a second input frequency, a value of a vertical blanking interval for each frame interval gradually changes.