Single chip frame buffer and graphics accelerator

Computer graphics processing and selective visual display system – Computer graphic processing system – Integrated circuit

Reissue Patent

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Details

C345S546000, C345S559000, C345S501000

Reissue Patent

active

RE037944

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to computer monitor display controllers for computer terminal displays that use bit-mapped memory, and in particular to a frame buffer memory system and pixel logic connected to the frame buffer memory which processes pixel data prior to application of signals derived therefrom to the computer monitor.
BACKGROUND TO THE INVENTION
As is well known, a pixel is a picture element on a computer display which has a certain color. Each logical pixel is actually formed of data defining 3 pixels, a red, green and blue pixel, each of which results in a visually merged, colored point on the display. In this disclosure, the term pixel will mean one logical pixel, that is, one set of red, green and blue elements defined by data.
A frame buffer is a memory which contains one frame of pixels, a frame being the total number of pixels that can be displayed on a display. VGA monitors have displays with a frame size of 640 by 480 pixels, and therefore a VGA frame buffer is a memory capable of holding 640×480, or 307,200 pixels.
While a pixel can be stored digitally using any number of bits, a standard “true color” display utilizes 24 bits per pixel, 8 bits for each red, green and blue color of each pixel. Another standard is 8 bits per pixel.
Many systems exist for controlling computer displays, but all systems employ separate integrated circuits for a graphics processor, a frame buffer, and pixel logical operations. The graphics processor can be a single chip or multiple chips interconnected to perform the required processing function. The frame buffer is typically made up of multiple video random access memory (VRAM) chips, or dynamic random access memory (DRAM) chips, as well as a memory controller chip. The pixel logic usually consists of some high speed logic, a high speed static random access memory (SRAM) chip, and a triple random access memory—digital to analog converter (RAMDAC) chip.
One of the critical tasks of a display controller system is to perform the graphics operations as quickly as possible. Bottlenecks determine the maximum speed of the system. One of the major bottlenecks in a graphics system is the interface throughput between the graphics processor and the frame buffer memory. The width of the bus between these two systems is proportional to the speed at which the system can process pixels (pixels per second). Most current systems have a 16 bit or a 32 bit interface, and the most powerful current system has a 64 bit interface.
Another major bottleneck is between the graphics processor and the RAMDAC. The power consumed in driving the capacitive loads of these two interfaces represents a significant fractions of overall graphics sub-system power.
SUMMARY OF THE INVENTION
The present invention substantially increases the speed of the graphical and/or video display system of a personal computer or work station, by removing the aforenoted bottleneck. It does so by providing a massively parallel bus between the memory of the display processor and the pixel processor. The data of an entire line of pixels, frame or part of a frame is thereby transferred in parallel between the memory and the pixel processor, whereby the pixel processor processes each bit in parallel with the others that have been transferred. For example, the bus, instead of a maximum 64 bits as in the prior art noted above, can be comprised of 5128 differential bus lines. To provide the massively parallel bus, the architecture of the DRAM memory of the display processor is modified. In addition, to realize the speed gain, both the memory and the display processor, as well as ancillary circuits such as control circuits, decoders, etc., are integrated together into the same integrated circuit.
With the massively parallel operation of the circuit, circuits are included in embodiments which minimize the impact of sudden and large power requirements from the system power supply, and which minimize power usage in the integrated display processor.
The RAMDAC function is also integrated on the same chip to remove the graphics controller-RAMDAC bus as a limiting factor in graphics performance.
A massively parallel bus is a bus having a number of lines which is far greater than the number of bits in a data word handled in the computer or workstation.
In the present invention the entire frame buffer system, including the memory controller, a basic pixel processor and a pixel logic system including a RAMDAC, are integrated into a single integrated circuit chip (IC). This can be implemented as a single stand-alone IC, or a graphics processor can be integrated in the same IC. The frame buffer in the present invention is implemented as a DRAM, and thus can be fabricated using a modern DRAM process (with appropriate dimensions for the size of buffer desired). The pixel processor is implemented as a block of logic circuits very tightly coupled to the DRAM frame buffer. Output pixel logic circuits are preferably implemented in high speed logic, multiple high speed SRAMs and three high speed DACs. These elements are all integrated together to form a very high speed graphics accelerator subsystem.
The invention can be used to control any display device that uses a bit-mapped pixel graphics system, such as Windows 3.1, Chicago (Windows 4) and Windows NT. As sill be understood after reading the description of the invention below, the design can support any size display. The embodiment described herein is directed to a display size of up to 1280 by 1024 pixels. This size of display can be supported using a single chip as described herein, in an eight bit per pixel mode. The embodiment described can also be used singly to support true-color (24 bits per pixel) for VGA displays of 640 by 480 pixels. A set of three of these chips can be operated in parallel to support true-color for all bit mapped screens up to 1280 by 1024 pixels.
To support a 1280 by 1024 by 8 bit frame buffer on a single chip, 10 megabits of DRAM must be integrated in the chip. When the rest of the chip is considered, it clearly must be implemented in a 16 megabit DRAM process. However, smaller versions of the chip, e.g. for support of smaller displays could be implemented using other technologies.
As noted above, the single chip graphics system utilizes a massively parallel bus, in a novel architecture. This provides an interface between the frame buffer memory and a pixel processor (a pixel data unit PDU, the basic graphics processor implementing some of the most basic, but also most often used graphics commands) to be extremely wide. In an embodiment described herein, the interface bus is 5128 bits wide, orders of magnitude larger than the most extremely wide prior art bus (64 bits) in the most powerful previous system. The PDU is interfaced back to the remainder of the graphics processor using a 32 bit bus.
The novel architecture and novel circuits used therein also provide power saving enhancements, to avoid the massive full power dissipation which would otherwise be required in such a system wherein circuits must operate in parallel on 5128 bits in an IC.
The present invention can be used in many different modes of operation. For example, it can be used to display a single window of graphics, of any size, on the display. It can be used for any number of windows of graphics. It will allow any one of these windows to display real-time video. The invention also achieves rate conversion between various video inputs and synchronizes them to the pixel rate. It could also allow a full motion video window to cover the entire display. It will allow full-motion video to be input in a variety of different standard formats, including GREY8, RGB332, RGB565, RGB555, ARGB8888, LUT8, RGB888, YUV411, YUV422 and YUV420, as well as other formats.
A further video function is supported, that of mirroring. The video can be displayed on the display in its correct orientation, or mirrored horizontally. This allows support of a video conferencing mode, in which the user views himself mirrored.
In accordance with an embodiment of the i

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