An address to perform a memory operation on a memory location in a rectangular frame buffer is received. A determination is made whether the received address identifies a memory location in a non-rectangular frame buffer corresponding to a memory location in the rectangular frame buffer. Based on the determination that the received address identifies the memory location in the non-rectangular buffer, the memory operation on the memory location in the non-rectangular buffer is performed based on the translated address. Based on the determination that the received address does not identify the memory location in the non-rectangular buffer, the memory operation in the non-rectangular frame buffer is not performed.

An address to perform a memory operation on a memory location in a rectangular frame buffer is received. A determination is made whether the received address identifies a memory location in a non-rectangular frame buffer corresponding to a memory location in the rectangular frame buffer. Based on the determination that the received address identifies the memory location in the non-rectangular buffer, the memory operation on the memory location in the non-rectangular buffer is performed based on the translated address. Based on the determination that the received address does not identify the memory location in the non-rectangular buffer, the memory operation in the non-rectangular frame buffer is not performed.

Described are various embodiments of an electronic device for a user having reduced visual acuity to fine tune a prescription thereof corresponding with their reduced visual acuity. The device comprises a digital light-field display, a hardware processor; and a non-transitory computer-readable medium having statements and instructions stored thereon for execution by said hardware processor in correcting an output image to be rendered by said digital light-field display in accordance with an image pre-filtering function, wherein said image pre-filtering function receives as input a light-field display optics parameter and a progressively adjustable vision correction parameter that corresponds to vision correction prescriptions.

Described are various embodiments of an electronic device for a user having reduced visual acuity to fine tune a prescription thereof corresponding with their reduced visual acuity. The device comprises a digital light-field display, a hardware processor; and a non-transitory computer-readable medium having statements and instructions stored thereon for execution by said hardware processor in correcting an output image to be rendered by said digital light-field display in accordance with an image pre-filtering function, wherein said image pre-filtering function receives as input a light-field display optics parameter and a progressively adjustable vision correction parameter that corresponds to vision correction prescriptions.

A computer-implemented method monitors a video-based graphic. The method includes displaying a video-based graphic. A position of a pointer interaction is monitored. The method includes determining a designation of a pixel of the video-based graphic at a location of the pointer interaction. An action is performed based on the designation of the pixel of the video-based graphic at a location of the pointer interaction.

A computer-implemented method monitors a video-based graphic. The method includes displaying a video-based graphic. A position of a pointer interaction is monitored. The method includes determining a designation of a pixel of the video-based graphic at a location of the pointer interaction. An action is performed based on the designation of the pixel of the video-based graphic at a location of the pointer interaction.

Data is formatted based at least in part upon attributes associated with such data. Data attributes can be related to a number of various factors in a data driven architecture such as the source of the data, the data subscriber and the path employed to convey the data from the source to the subscriber. In addition, data formatting can employ various levels of complexity and data presentation can vary dependent on various factors such as display device and user to which the data is presented. For example, the format of the data can refer to the size, shape, color, and graphics associated therewith.

Data is formatted based at least in part upon attributes associated with such data. Data attributes can be related to a number of various factors in a data driven architecture such as the source of the data, the data subscriber and the path employed to convey the data from the source to the subscriber. In addition, data formatting can employ various levels of complexity and data presentation can vary dependent on various factors such as display device and user to which the data is presented. For example, the format of the data can refer to the size, shape, color, and graphics associated therewith.

One or more computing devices, systems, and/or methods for monitoring a video are provided. For example, the video may be rendered within a canvas overlaying a webpage within a web browser. The video may comprise an opaque portion (e.g., a bike) and a transparent portion (e.g., a transparent background such that the bike appears to be driving across the webpage as the video plays). User input associated with the canvas may be evaluated to determine whether the user input occurs over the opaque portion or the transparent portion. Responsive to the user input occurring over the opaque portion, the web browser may be transitioned from the webpage to a biking website linked to by the video. Responsive to the user input occurring over the transparent portion, the canvas may be closed to terminate the video.

A color control user interface can include a controller, a display area, and a three-dimensional shape generated by the controller and disposed in the display area. The three-dimensional shape can include a first axis that represents a first range of selections for a first color factor, a second axis that represents a second range of selections for a second color factor, and a third axis that represents a third range of selections for a third color factor. A control engine of the controller can be configured to receive user selections having a first selection of the first color factor, a second selection of the second color factor, and a third selection of the third color factor. The control engine can also be configured to compare the user selections to light source information stored in memory, and send commands via a transceiver to at least one light source.