Computer graphics processing and selective visual display system – Computer graphic processing system
Reexamination Certificate
2000-04-20
2003-02-11
Vo, Cliff N. (Department: 2671)
Computer graphics processing and selective visual display system
Computer graphic processing system
Reexamination Certificate
active
06518970
ABSTRACT:
FIELD OF THE INVENTION
The invention relates generally to video graphics processing and more particularly to integrated graphics processors that provide analog output in different color space formats and that provide embedded synchronization signals for display devices.
BACKGROUND OF THE INVENTION
Computers or other display generating devices are known to include a central processing unit, system memory, peripheral ports, audio processing circuitry, and video processing circuitry. Typically, the video processing circuitry receives graphics data from the central processing unit and prepares it for display on a computer monitor, television, and/or LCD panel. The computer generates the graphics data by performing one or more applications such as word processing applications, drawing applications, presentation applications, spread sheets, operating system functionality, etc. The video graphics processing circuit processes the graphics data to produce RGB (red, green, blue) digital data, which may be converted to analog data that is provided to the monitor.
The video graphics circuitry may also include a video decoder and video capture module for processing YUV data. The video decoder is operably coupled to receive video signals from a video source such as a cable box, satellite receiver, antenna, VCR, DVD player, etc. Upon receiving the video signal, which is formatted for a television or other video display device, the video decoder produces digital representations thereof The digital representations are stored as YUV data (as used herein, YUV includes YCbCr and YPbPr) in the video capture module. For the video graphics processor to process the YUV data, it first converts the YUV data into an RGB color base. Once in the RGB color base, the video graphics processor can blend the video data and graphics data to produce an output image. Also YUV source data is not required since graphics processors can generate YPbPr from an image with just graphics and no video.
The output image is in a digital RGB color base format and can be provided directly to an LCD panel or converted to an analog RGB signal via a digital-to-analog converter (DAC). If the computer is also providing the output image to a television monitor, the digital RGB color base data is converted to YUV color base data. As such, the video graphics processing circuitry would further include an RGB-to-YUV converter.
As known in the art, high definition television standards define a trilevel embedded synchronization signal to provide horizontal, vertical and blanking synchronization for three wire component video analog YPbPr or RGB based display devices. Other devices may require analog RGB data and separate synchronization signals or separate wires resulting in a four or five wire system.
High definition television devices and high quality standard definition television, typically use an analog YPbPr (or RGB) three wire component video input wherein the synchronization signals are embedded with the luma and chroma information, as known in the art. These are known as component input televisions. A problem arises when a single integrated graphics processor chip needs to send display information in multiple formats for different types of display devices, such as a component input television, versus a computer monitor, since conventional integrated graphics processors do not provide programmable embedded synchronization signal generation for output to different types of display devices, or the logic to convert from RGB to the component video YPbPr color space.
One type of digital to analog converter (DAC) chip includes HDTV compliant triple digital to analog converters which receive digital information from a source and can output a trilevel synchronization pulse along with the YPbPr information while also being programmable to output conventional analog RGB information. However, such integrated circuits typically require additional external analog to digital conversion circuitry and other circuitry to provide suitable input to the digital to analog converter (DAC). Also, such digital to analog converters cannot provide graphic and video blending or color space conversion (e.g., between RGB and YUV color space).
Accordingly, there exists a need for an improved integrated graphics processor that provides integrated programmable synchronization pulse generation to provide different formats of display synchronization signals for blended information based on requirements of different display device types. It would be desirable if such a processor reduced output pin requirements compared to using external YPbPr encoders.
REFERENCES:
patent: 6317525 (2001-11-01), Aleksic et al.
patent: 6331852 (2001-12-01), Gould et al.
patent: 6335761 (2002-01-01), Glen et al.
patent: 6380945 (2002-04-01), MacInnis et al.
Promotional material, “Industry's first HDTV-compliant triple DACs”, Texas Instruments, Jun. 1999.
Glen David
Yeh David
ATI International SRL
Vedder Price Kaufman & Kammholz
Vo Cliff N.
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