According to various embodiments, a wearable device may be provided. The wearable device may include: a display panel having integrally formed a first display portion and a second display portion; and a driver circuit configured to control the first display portion with a first frequency and to control the second display portion with a second frequency.

In order to provide a technology with which an area that meets the intention of a user is scrolled when the user gives a scroll instruction while specifying a part of an image, provided is an information processing device which performs control for scrolling an image that is displayed on a display unit and that includes a scrollable first area and a second area which is a part of the first area and which is scrollable independently, the information processing device including: a unit configured to receive information that specifies a point on the display unit and that instructs to scroll an image corresponding to the specified point; a unit configured to determine, when the specified point corresponds to the second area, whether the first area is to be scrolled or the second area is to be scrolled independently.

A first thread receives a start movement command and a parametric curve from a second thread in response to the second thread receiving an input to move an element that is rendered in an interface. The parametric curve defines parameters for movement of an element. The first thread calculates a positioning of the element on the interface using the parametric curve. Then, the first thread positions the element in the interface based on the positioning and continues to calculate the positioning and position the element in the interface using the parametric curve until a stop movement command is received from the second thread.

In general, techniques are discussed for performing efficient content scrolling on smartphones and other user devices. Power and memory bandwidth requirements are reduced during high-speed scrolling by utilizing lossy compression of content during rendering with minimal user experience impact, as the user is less likely to notice artifacts resulting from high compression while the content is scrolling quickly.

A browser system divides content pages into tiles for display on a user device, and updates the tiles that become damaged as the result of user interactions or other events. The browser system may decide whether and/or when to update a damaged off-screen tile based on one or more of the following (1) a predicted likelihood that the user will scroll to that tile or that the tile will otherwise become visible on the user device, (2) the cost (in terms of processing resources) of updating the tile, as may be estimated based on the processing resources used to initially generate the tile, (3) a measure of visual impact associated with deferring the update.

An image adjustment system and an image adjustment method include a camera, an image adjustment device, an image display device, and a controller. The image adjustment device includes an image generator and an image processor. The image generator generates a spherical image. The image processor acquires the spherical image from the image generator based on instruction information output from the controller and displays the spherical image on the image display device. The image processor rotates the spherical image based on the instruction information, and adjusts a captured image displayed on the image display device in accordance with the rotation of the spherical image.

A laptop computer includes a display portion comprising a primary display and a base portion coupled to the display portion. The base portion includes a keyboard and a light-transmissive cover defining a first touch-sensitive input region along a first side of the keyboard and a second touch-sensitive input region along a second side of the keyboard. The base portion also includes a first display under the first touch-sensitive input region and a second display under the second touch-sensitive input region.

Methods and apparatus relating to an adaptive multibit bus for energy optimization are described. In an embodiment, a 1-bit interconnect of a processor is caused to select between a plurality of operational modes. The plurality of operational modes comprises a first mode and a second mode. The first mode causes transmission of a single bit over the 1-bit interconnect at a first frequency and the second mode causes transmission of a plurality of bits over the 1-bit interconnect at a second frequency based at least in part on a determination that an operating voltage of the 1-bit interconnect is at a high voltage level and that the second frequency is lower than the first frequency. Other embodiments are also disclosed and claimed.

According to various embodiments, a wearable device may be provided. The wearable device may include: a display panel having integrally formed a first display portion and a second display portion; and a driver circuit configured to control the first display portion with a first frequency and to control the second display portion with a second frequency.

An apparatus capable of displaying a plurality of images while a screen is scrolled, including a processing unit configured to process an image to be displayed on a display unit, a display control unit configured to control the display unit to display a plurality of images processed by the processing unit, a scroll control unit configured to set another plurality of images as display targets to be displayed on the display unit by scrolling the displayed plurality of images, and a control unit configured to control the processing unit to process the plurality of images as the display targets such as to prioritize the processing for an image disposed on an upstream side over an image disposed on a downstream side in a moving direction of scrolled images.