A completely hardware-based graphics interface controller for reading values from sensors or outputting voltages, currents, or other electrical parameters to medical devices is proposed. The graphics interface controller accepts analog or digital input into a programmable logic device (PLD), whose logic gates convert the input value to memory addresses of bitmaps that represent digits or other characters. The bitmaps are copied to respective x, y coordinates in a frame buffer, which are then displayed on a matrix liquid crystal display (LCD) panel. The bitmaps can be simple or elaborate, mimicking the rich look and feel of general purpose computer fonts so that the display output is compelling and modern-looking despite being entirely hardware based. A ventilator or other medical device can be instrumented with one or more sensors whose outputs are to the graphics interface, and an alarm can be triggered for off-nominal conditions.

Content data of a display target is acquired in accordance with a user's operations and is used to determine a configuration of a display image. Of the regions to be rendered using fonts in the display image, the region in which a character is to be displaced by a very small amount is determined. The characters targeted for displacement are rendered while being displaced over time in accordance with predetermined displacement rules. The characters not targeted for displacement are rendered in a reference position. With all characters rendered, the display image is completed and output. The processes of S12 to S24 are repeated until display is terminated.

A display system suitable for a vehicle is provided. The display system suitable for the vehicle includes a center console, a processing device, and a display device. The center console is configured to generate a power sequence according to a customization setting, and the power sequence corresponds to content of a data table. The processing device is configured to receive the power sequence and decodes the power sequence through a lookup table to generate a decoding result. The lookup table includes the content of the data table. The display device is coupled to the processing device and is configured to display a display image according to the decoding result.

A display driver includes a first memory configured to store a plurality of pieces of image data, and an image generator configured to access the first memory based on display information and generate first display data based on the plurality of pieces of image data stored in the first memory.

Interrogative punctuation is automatically added to a sequence of characters entered into a handheld device upon termination of the sequence, such as by double actuation of the spacebar, when the first word, or the first and third words at the beginning of the sequence, of after a comma or semicolon, are indicative of an interrogatory.

A driving system capable of supporting multiple display modes is provided. The driving system includes a memory for storing gamma codes corresponding to various display modes, a gamma voltage generation device producing gamma voltages corresponding to the gamma codes, and a timing controller accessing the gamma codes stored in the memory and writing the gamma codes into the gamma voltage generation device according to mode switch signals. The gamma voltage generation device then produces gamma voltages corresponding to the input gamma codes during the vertical blank interval of the display device, thereby achieving display mode switch. The memory may also be integrated in the timing controller. Compared to the prior art, the driving system is compatible with various display modes with reduced cost.

A driving system capable of supporting multiple display modes is provided. The driving system includes a memory for storing gamma codes corresponding to various display modes, a gamma voltage generation device producing gamma voltages corresponding to the gamma codes, and a timing controller accessing the gamma codes stored in the memory and writing the gamma codes into the gamma voltage generation device according to mode switch signals. The gamma voltage generation device then produces gamma voltages corresponding to the input gamma codes during the vertical blank interval of the display device, thereby achieving display mode switch. The memory may also be integrated in the timing controller. Compared to the prior art, the driving system is compatible with various display modes with reduced cost.

The storage unit prestores element image data presenting an element image contained in a display image in an image data region that is a continuous storage region, and prestores draw command data containing data for creating display data presenting the display image in which the element image is placed in a draw command region that is a continuous storage region. The central processing unit makes reference to a screen management table when a predetermined drawing condition is satisfied to identify and output the draw command identification data corresponding to the satisfied drawing condition. The draw processing unit acquires from the storage unit the draw command data identified with the output draw command identification data, and creates and outputs to the display unit the display data placing the element image based on the acquired draw command data.

A non-transitory computer-readable recording medium having recorded therein a program for controlling an operation of an electronic device includes: a user interface that receives a user operation; a communication module that includes an antenna that performs wireless communication with an external device; and at least one processor that operates an own device in any of a plurality of operation modes including a first mode in which calculation is executed based on an operation to an operation unit and a second mode in which information input by an operation to the operation unit is transmitted to the external device by a communication unit, wherein the program causes the at least one processor to execute, during execution of connection processing for performing wireless communication with the external device, displaying information indicating that the electronic device is executing the connection processing in a predetermined region that displays a numerical value that is a result of the calculation in the first mode in a display unit.