Facsimile and static presentation processing – Static presentation processing – Detail of image placement or content
Reexamination Certificate
1999-04-23
2001-12-04
Popovici, Dov (Department: 2622)
Facsimile and static presentation processing
Static presentation processing
Detail of image placement or content
C358S001170, C358S001160, C358S001150
Reexamination Certificate
active
06327050
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field
The invention relates to the printing of images, which exist in a digital electronic format. More particularly, the invention relates to a printing method and apparatus having multiple raster image processors.
2. Description of the Prior Art
Every image that exists in a digital electronic format is made of picture elements. At some point, all such digital image data, whether expressed as vector format data or bitmap format data, must be rendered into pixels for display on a monitor or for printing on a printer. All images, therefore, have pixels as their base. Rendering, or translating the digital data into physical output, is the most important part of realizing such images. The term raster image processing (RIP) refers to the process of translating digital image data into physical visual images and graphics.
FIG. 1
is a block schematic diagram showing a conventional raster imaging processor in which raster images are images composed of lines of pixels. In raster image processing, each horizontal line of bitmap image pixel information is referred to as a scan line or raster line. In
FIG. 1
, Postscript® lines and/or digital RGB or CMYK pixels
12
are shown processed by associated RIPs
13
-
15
to produce information that results in a physical output
16
.
The simplest output devices translate only one raster line at a time and then output that line to film, paper, or a monitor.
FIG. 2
is an illustration of an image
20
and a single raster line
22
as processed by such device. More efficient RIP techniques analyze an image all at one time and convert the image information into visual output.
The RIP is a program that may be embedded in hardware or the may exist entirely in software. A hardware RIP is a computer which is attached to an output device and which is dedicated to translating digital image data for output. Image data is sent from a workstation to a computer that is attached to the output device. The hardware RIP program which resides in this computer interprets the image data and provides raw on/off instructions to the output device. The actual interpreter may be any program that translates image information in accordance with a known format. For example, the Postscript® interpreter manufactured by Adobe Corporation of Mountain View, Calif. is commonly used in raster image processing.
A software RIP performs many of the same functions as a hardware RIP. The software RIP is usually located at a workstation that is not necessarily dedicated solely to the RIP function. The software RIP interprets the digital image data and produces therefrom information that is required for the output device to function properly. A major disadvantage of software RIPs is that the workstation may not be configured to perform at speeds equal to a dedicated hardware RIP. Software RIPs are also presently less desirable for larger print facilities because such RIPs usually require a large amount of free hard disk space on the workstation. Such hard disk storage is necessary because all of the digital data that are processed must be saved before they are sent to the output device.
The RIPing process is complex and much of the output device rating is based upon the device's image processing speed. The speed of the interpreter or RIP is a major factor in the efficiency of the entire image reproduction process. Because of the dedicated computer, hardware RIPs are typically faster than software RIPs. Even so, it would be advantageous to provide improvements in RIP architectures that increase processing speed and efficiency.
SUMMARY OF THE INVENTION
The invention provides a multiple RIP system, which comprises a scalable architecture that enables faster system performance over multiple processors.
The system includes the following features:
Zero RIP: A language interpreter sub-RIP that interprets a print instruction file but does not process the graphics rendering steps or the post-language processing operators. The zero RIP provides several benefits over conventional RIP technology. For example, the zero RIP discovers page related attributes for individual pages within a multipage job and reports any potential errors or warnings with the file.
Thumb RIP: A very low resolution RIP that is used specifically for the creation of thumbnail images. The thumb RIP is much faster than a full resolution RIP process and requires less system resources than a full resolution RIP. The thumb RIP creates a small thumbnail image for viewing or for other purposes (e.g. toner estimation).
Push data flow instead of a pull model. Some benefits of this feature of the invention include a reduction in concurrent bus contention on a shared bus leading into the processors. This aspect of the invention also reduces overhead on a bus leading to the processors and saves time by reducing the number of processing steps.
Skip RIP: This feature of the invention interprets selected pages in a manner that skips all or most of the processing for that page. Pages to be skipped are scheduled for a different processor. This approach saves processing time and enables the provision of a multiple processor RIP. Skipping techniques include all or some of the following: RIP to low or zero resolution, skip the rendering step for said pages, skip the compression step for said pages, and change selected Postscript® commands for said pages.
Rules based scheduler on a page/face basis: This feature of the invention supports a dynamic assignment and assessment algorithm. Scheduling results in optimum use of available resources and requested print constraints (e.g. constrained time window) and optimum use of system bandwidth (e.g. bandwidth control).
Archiving and editing capability: This feature of the invention is an integrated system that enables tagged archiving of jobs or parts of jobs in a post RIPed (i.e. raster) format, for example in a special cache located within the multiRIP system.
Parallel RIPing using multiple processors: This feature of the invention uses multiple processors in the system, either on a single document or on more than one document.
REFERENCES:
patent: 6049390 (2000-04-01), Notredame et al.
patent: 0545261A1 (1992-11-01), None
patent: 545261A1 (1993-06-01), None
patent: 578258A1 (1994-01-01), None
patent: WO 96/01449 (1996-01-01), None
Dziesietnik Ghilad
Gunturu Ravindranath
Kong Chew Yan
Motamed Margaret
Segal Alon
Electronics For Imaging, Inc.
Glenn Michael A.
Lamb Twyler
Popovici Dov
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