JPH03201080A - Graphic display device - Google Patents

Abstract

PURPOSE:To attain a large screen and the high image resolution at one time by distributing data at a level of the graphic data and not at a video signal level. CONSTITUTION:A graphic processor 12 reads the graphic data (polygon data) consisting of the 3-dimensional coordinate data out of a memory 11 to carry out the necessary operations like the coordinate transformation, the calculation of luminance, the clipping, etc., and transfers the graphic data to an image generation processor 13 corresponding to a display where the polygon is displayed. The processor 13 applies the erasion of hidden faces and the addition of shadows to the received polygon data for calculation of the picture element value (luminance value/color value) and obtains the image data. These data are written into a frame buffer 14. A D/A converter 15 converts the digital image data into the analog video signals to supply them to a display 16. In such a constitution, both a large screen and the high image resolution can be attained at one time.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a graphic display device in a system such as a design support system or a presentation system that requires the display of two-dimensional or thirteen-dimensional graphics.

(Prior Art) Conventionally, as a large screen display device, there is a projector that projects an image onto a large screen, and it is used in conferences and the like. Furthermore, as a high-resolution display device, CRT displays are extremely superior in terms of brightness and contrast, and are commonly used as home televisions and various monitors (References: Journal of the Society of Television Engineers, Vol.
42. No, 10.1988゜pp, 1013
-1021).

Further, large-screen display devices (hereinafter referred to as multi-TVs) in which a plurality of display devices are arranged in a matrix are used at exhibition and exposition venues. When displaying graphics using a multi-television, a graphic display device as shown in FIG. 3 can be considered.

(Problem to be solved by the invention) However, in the above-mentioned projector, the resolution is 1
The resolution is approximately 000 x 1000 pixels, which is a rather low resolution for use in design. Furthermore, it is inferior to the above-mentioned CRT display in terms of brightness and contrast. vice versa,
A CRT display, which is a high-resolution display device, has a size limit due to technical and safety aspects, making it difficult to increase the screen size. Furthermore, both have resolution limitations due to the access speed of the image memory.

Furthermore, the aforementioned multi-TV is a video device that divides and reproduces a video signal such as NTSC into multiple planes, and as shown in FIG. It is divided into 26 configurations. For example, in the vertical direction, a video signal for the great circle is obtained by supplying the same signal to a plurality of adjacent scanning lines. Therefore, even if the number of display devices is increased, resolution cannot be improved.

An object of the present invention is to provide a graphic display device that simultaneously reproduces a large screen and high resolution.

(Means for Solving the Problems) As shown in FIG. 1, the graphic display device of the present invention includes a graphic storage unit storing initial graphic data and a graphic storage unit for displaying a two-dimensional and 13-dimensional graphic. A graphic processing unit performs preprocessing including coordinate conversion processing on the graphic data stored in the graphic storage unit and distributes it to the image generation unit, and a luminance value or a plurality of image generation units that calculate color values and generate image data; a transfer path for transferring graphic data from the graphic processing unit to the image generation unit; and a transfer path for transmitting the image data generated by the image generation unit. A matrix comprising a plurality of image storage sections for storing images, a plurality of video signal generation sections for generating video signals necessary for display from the image data in the image storage sections, and a video signal obtained by the video signal generation section as an input. This is a graphic display device composed of a plurality of display sections arranged in a shape.

(Function) When attempting to configure a large screen display device by arranging high resolution display devices such as CRT displays in a matrix, data is distributed at the graphic data level rather than at the video signal level. By distributing the images, it is possible to achieve a large screen and high resolution at the same time.

(Example) An embodiment of the present invention will be described using FIG. 2.

Here, a case will be described in which a device for displaying a shaded three-dimensional figure is realized. In the figure, a graphic processor 12 reads graphic data (polygon data) consisting of three-dimensional coordinate data from a memory 11, performs necessary operations such as coordinate transformation, brightness calculation, and clipping, and then performs necessary operations on the data. The polygon is transferred through the transfer path 17 to the image generation processor 13 corresponding to the display on which it is displayed.

If a polygon is displayed across multiple displays, the data of the polygon is transferred to multiple image generation processors 13. The image generation processor 13 is
By performing hidden surface removal l shading processing on the transferred polygon data, pixel values (luminance value, color value)
is calculated to obtain image data. These data are written to the frame buffer 14. The D/A converter 15 converts the digitally represented image data in the frame buffer 14 into an analog video signal and supplies it to the display 16.

Although the present invention has been described above in detail with reference to Examples, the present invention is not limited to these Examples. For example, although the embodiment describes the case of realizing a device for displaying a three-dimensional figure with shading, the present invention can also be applied to the case of a three-dimensional figure or a two-dimensional figure without shading. is clear. Further, even when two-dimensional and thirteen-dimensional figures coexist, the present invention can be implemented without any problems.

(Effects of the Invention) As explained above, if the present invention is applied, it is possible to provide a graphic display device that simultaneously realizes a large screen and high resolution. Considering that there is a need to provide information to a large number of people at the same time during presentations, this advantage can be said to be extremely large.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the configuration of the present invention, FIG. 2 is a diagram for explaining the present invention in detail, and FIG. 3 is a diagram for explaining the prior art. In the figure, 1... Graphic storage section, 2... Graphic processing section, 3... Image generation section, 4... Image storage section, 5, 25... Video signal generation section, 6° 26. ...display section, 7...transfer path,
11...Memory, 12...Graphic processing processor, 1
3... Image generation processor, 14... Frame buffer, 15... D/A converter, 16... Display, 17... Data transfer path, 30... Video signal division unit.

Claims (1)

[Claims] a figure storage unit that stores initial figure data; a figure processing unit that performs preprocessing including coordinate transformation processing and distribution to the image generation unit for the figure data stored in the figure storage unit; a plurality of image generation sections that generate image data from the graphic data transferred from the processing section; a transfer path for transferring the graphic data of the graphic processing section to the image generation section; a plurality of image storage units for storing image data stored in the image storage units; a plurality of video signal generation units for generating video signals necessary for display from the image data in the image storage units; and a plurality of video signal generation units for generating video signals obtained by the video signal generation units. A graphic display device that is composed of a plurality of input display sections arranged in a matrix.