JP2006159738A - Print controller, its data processing method, and storage medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform processing efficiently by using a plurality of CPUs and a plurality of renderers in the PDL system of one engine. <P>SOLUTION: The print controller of a printer being connected with a host and provided with a plurality of CPUs and rendering devices, and a means for delivering inputted PDL data to a single print device comprises a means for receiving the PDL data by a first CPU, a means for converting the PDL data into independent intermediate data or a display list in units of page, a means for distributing the PDL data, the intermediate data or the display list to the plurality of CPUs or rendering devices, a means capable selecting the distribution unit in units of page, and a means for switching the processing method for every plurality of CPUs or rendering devices according to conditions when processing of the same page is distributed. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a printer device connected to a host computer, and means for outputting a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data to a single printing device in the printer device. And a data processing method thereof and a storage medium.

A printing apparatus connected to a host computer, the printing apparatus including a plurality of CPUs, a plurality of rendering devices, and a unit for outputting input PDL (Print Description Language) data to a single printing device. In the control device, as shown in Patent Document 1, in the information processing device including a plurality of CPUs, the first CPU performs protocol processing and job generation, and the second CPU divides the job into pages, and pages are divided. It was converted to a state that can be processed in parallel.
JP 2000-216935 A

  However, it is a conventional printer device connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are output to a single printing device. In the printing control apparatus having the above, there are the following problems.

  The conventional example does not appropriately correspond to the processing flow of PDL, and does not convert PDL data into editable intermediate data independent for each page or display list that can be processed by a rendering device independent for each page. There has been a demand for an appropriate distributed processing method including whether it is performed by a CPU.

  Furthermore, an appropriate sorting method has been demanded as to which unit is used for sorting.

  Furthermore, there is a need for an appropriate process selection method for processing the distributed data with what processing settings.

  According to a first aspect of the present invention, there is provided a printer apparatus connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are stored in a single unit in the printer apparatus. Means for receiving the PDL data by the first CPU and intermediate data that can be edited independently for each page or a rendering device independent for each page. Conversion means for converting to a display list that can be processed, means for distributing PDL data or intermediate data or display list to a plurality of CPUs or a plurality of rendering devices, means for selecting a distribution unit in units of pages, and processing of the same page The Means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices according to a condition when distributed to a plurality of CPUs or a plurality of rendering devices.

  According to a second aspect of the present invention, the means for distributing the PDL data, intermediate data, or display list to a plurality of CPUs or a plurality of rendering devices is the PDL data when the PDL data is independent on a page basis. Is distributed to a plurality of CPUs, and if not, the first CPU converts the data into intermediate data that can be edited independently for each page, or the display list that can be processed by a rendering device independent for each page. To do.

  According to a third aspect of the present invention, the means for allocating the PDL data, intermediate data, or display list to a plurality of CPUs or a plurality of rendering devices is a method for distributing PDL data or intermediate data as long as the CPU of the distribution destination is high. It is characterized by sorting by format, and sorting by display list format if the CPU capability is low.

  According to a fourth aspect of the present invention, the means for selecting a distribution unit in units of pages is a means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations. Are provided.

According to a fifth aspect of the present invention, means for selecting whether to distribute different pages or the same page to the plurality of distribution destinations,
If the PDL is not independent for each page, the entire job is transferred to a plurality of CPUs.

According to a sixth aspect of the present invention, the means for selecting whether to distribute different pages or the same page to the plurality of distribution destinations is that the distribution destination CPU or rendering device is more than a printing device. If the speed is sufficiently high, the same page is transferred to a plurality of CPUs or a plurality of rendering devices.

  According to a seventh aspect of the present invention, the means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations requires obtaining different rendering results for the same page. If there is, the same page is transferred to a plurality of CPUs or a plurality of rendering devices.

  According to an eighth aspect of the present invention, there is provided means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices depending on a condition when processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices. A plurality of CPUs or a plurality of rendering devices output different pages, and the processing is switched so that one job can be made in total.

  According to a ninth aspect of the present invention, there is provided means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions when processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices. The processing method is switched so as to output different output color spaces.

  According to a tenth aspect of the present invention, there is provided means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions when processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices. The processing method is switched so as to output different resolutions.

  According to an eleventh aspect of the present invention, the means for switching processing methods to output different output color spaces switches processing according to output destination / output purpose designation such as printing, screen display, and transmission. It is characterized by this.

  According to a twelfth aspect of the present invention, the means for switching processing methods so as to output different resolutions is to switch processing according to output destination / output purpose designation such as printing, screen display, and transmission. It is a feature.

  According to a thirteenth aspect of the present invention, there is provided a printer device connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are stored in a single unit in the printer device. And a data processing method for the print control apparatus, the first CPU for receiving the PDL data, and the editable intermediate data independently for each page or the PDL data Conversion means for converting to a display list that can be processed by a rendering device independent for each page, means for distributing PDL data or intermediate data or display list to a plurality of CPUs or rendering devices, and a distribution unit for each page And selectable means, and means for switching the processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions when processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices. To do.

  According to a fourteenth aspect of the present invention, there is provided a printer device connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are stored in a single unit in the printer device. In a storage medium storing a computer-readable program comprising: a means for outputting to a printing device; means for receiving PDL data by the first CPU; intermediate data that can be edited independently for each page; Conversion means for converting to a display list that can be processed by a rendering device independent for each page, means for distributing PDL data or intermediate data or display list to a plurality of CPUs or rendering devices, and a distribution unit. And a means for switching processing methods for each of a plurality of CPUs or a plurality of rendering devices depending on conditions when processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices. It is characterized by this.

  According to the first invention, a printer device connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are stored in the printer device as a single printing device. And a means for receiving the PDL data by the first CPU, and the PDL data can be processed by the editable intermediate data independent for each page or the rendering device independent for each page. Conversion means for converting to a display list, means for distributing PDL data or intermediate data or display list to a plurality of CPUs or rendering devices, means for selecting a distribution unit in units of pages, and processing of the same page of And a means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices depending on the conditions when distributed to the CPU or the plurality of rendering devices. Therefore, the editable intermediate data or page independently for each page It is possible to determine with an appropriate distributed processing method which CPU and rendering device perform processing for conversion into a display list that can be processed by a rendering device independent of each unit.

  Furthermore, it is possible to appropriately determine whether to perform distribution in page units or job units.

  Furthermore, it is possible to select an appropriate process selection method as to what processing settings are used for processing the distributed data.

  According to the second invention, the means for allocating the PDL data, intermediate data, or display list to a plurality of CPUs or a plurality of rendering devices includes a plurality of PDL data when the PDL data is independent for each page. If not, the first CPU converts the data into intermediate data that can be edited independently for each page, or the display list that can be processed by a rendering device that is independent for each page. The appropriate distributed processing method determines which CPU and rendering device performs the process of converting PDL data into intermediate data that can be edited independently for each page or a display list that can be processed by a rendering device that is independent for each page. I can do it.

  According to the third invention, the means for allocating the PDL data, intermediate data or display list to a plurality of CPUs or a plurality of rendering devices is in the form of PDL data or intermediate data as long as the CPU of the distribution destination is high. Since the distribution and the CPU capability are low, the distribution is performed in the form of the display list. Therefore, the PDL data is converted into the intermediate data that can be edited independently for each page or the display list that can be processed by the rendering device independent for each page. It is possible to determine which CPU and rendering device perform this by an appropriate distributed processing method.

  According to a fourth aspect of the present invention, the means for selecting a distribution unit in units of pages includes a means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations. Since it is characterized by comprising, which CPU and rendering device performs processing for converting PDL data into editable intermediate data independent for each page or display list that can be processed with a rendering device independent for each page, It can be determined by an appropriate distributed processing method.

  According to the fifth invention, the means for selecting whether to distribute different pages or the same page to the plurality of distribution destinations is that if the PDL is not independent for each page, the entire job Is transferred to a plurality of CPUs, it is possible to appropriately determine whether to distribute in units of pages or in units of jobs.

  According to the sixth invention, the means for selecting whether to distribute different pages or the same page to the plurality of distribution destinations is that the distribution destination CPU or rendering device is more sufficient than the printing device. Since the same page is transferred to a plurality of CPUs or a plurality of rendering devices at a high speed, it is possible to appropriately determine whether to distribute in units of pages or in units of jobs.

  According to the seventh invention, the means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations needs to obtain different rendering results for the same page. For example, since the same page is transferred to a plurality of CPUs or a plurality of rendering devices, it is possible to appropriately determine whether to distribute in units of pages or in units of jobs.

  According to the eighth invention, when the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices according to a condition includes: The CPU or multiple rendering devices output different pages, and the processing is switched so that one job can be made in total, so what kind of processing settings should be used to process the distributed data? It is possible to select an appropriate process selection method.

  According to the ninth invention, when the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices depending on conditions, Since the processing method is switched so as to output different output color spaces, it is possible to select an appropriate processing selection method as to what processing setting is used for processing the distributed data.

  According to the tenth invention, when the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices depending on conditions, Since the processing method is switched so as to output different resolutions, it is possible to select an appropriate processing selection method as to what processing setting is used for processing the distributed data.

  According to the eleventh aspect of the invention, the means for switching the processing method so as to output different output color spaces includes switching the processing according to the output destination / output purpose designation such as printing, screen display, and transmission. Since it is a feature, it is possible to select an appropriate process selection method as to what processing setting is used to process the distributed data.

  According to the twelfth invention, the means for switching processing methods so as to output different resolutions switches processing according to output destination / output purpose designation such as printing, screen display, and transmission. Therefore, it is possible to select an appropriate processing selection method as to what processing setting is used for processing the distributed data.

  According to a thirteenth aspect of the present invention, there is provided a printer device connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are stored in the printer device as a single printing device. And a data processing method for the print control apparatus, wherein the first CPU receives the PDL data, and the PDL data is editable intermediate data or page units independently for each page. Conversion means for converting to a display list that can be processed by an independent rendering device, means for distributing PDL data, intermediate data, or display list to multiple CPUs or multiple rendering devices, and a distribution unit can be selected on a page-by-page basis If the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the processing method is switched for each of the plurality of CPUs or the plurality of rendering devices depending on conditions. An appropriate distributed processing method can be used to determine which CPU or rendering device performs the process of converting the intermediate data that can be edited independently for each page or the display list that can be processed by the rendering device independent for each page.

  Furthermore, it is possible to appropriately determine whether to perform distribution in page units or job units.

  Furthermore, it is possible to select an appropriate process selection method as to what processing settings are used for processing the distributed data.

  According to the fourteenth aspect of the invention, there is provided a printer device connected to a host computer, wherein a plurality of CPUs, a plurality of rendering devices, and input PDL (Print Description Language) data are stored in the printer device as a single printing device. And means for receiving the PDL data by the first CPU in a storage medium storing a computer-readable program, and intermediate data or page units that can be edited independently for each page. Conversion means for converting to a display list that can be processed by an independent rendering device; means for distributing PDL data or intermediate data or display list to a plurality of CPUs or rendering devices; And means for switching the processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions when the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices. Decide which CPU and rendering device will perform the process of converting PDL data into intermediate data that can be edited independently for each page or a display list that can be processed by a rendering device that is independent for each page, using an appropriate distributed processing method. I can do it.

  Furthermore, it is possible to appropriately determine whether to perform distribution in page units or job units.

  Furthermore, it is possible to select an appropriate process selection method as to what processing settings are used for processing the distributed data.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to examples.

  Before describing the configuration of the present embodiment, the configuration of a laser beam printer (hereinafter referred to as “LBP”) suitable for application of the present embodiment will be described with reference to FIG. Needless to say, the printer to which this embodiment is applied is not limited to the laser beam printer, but may be a printer of another printing method. Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a cross-sectional view showing the internal structure of the LBP of the embodiment.

  In the figure, reference numeral 100 denotes an LBP main body, and corresponding character patterns according to a character print command, various graphic drawing commands, an image drawing command, a color designation command, etc. supplied from a host computer (201 in FIG. 2) connected to the outside. An image is formed on a recording sheet that is a recording medium.

  Reference numeral 151 denotes an operation panel on which a switch for operation and an LED display or an LCD display for displaying the status of the printer are arranged.

  A printer control unit 101 controls the entire LBP 100 and analyzes a character printing command supplied from a host computer.

  The LBP in this embodiment converts RGB color information into M (magenta) C (cyan) Y (yellow) K (black), and forms and develops them in parallel. Has a development mechanism. The printer control unit 101 generates a print image for each MCYK, converts it into a video signal, and outputs it to each MCYK laser driver.

  The M (magenta) laser driver 110 is a circuit for driving the semiconductor laser 111, and switches on and off the laser beam 112 emitted from the semiconductor laser 111 in accordance with an input video signal. The laser beam 112 is swung in the left-right direction by the rotary polygon mirror 113 to scan the electrostatic drum 114. As a result, an electrostatic latent image of a character or figure pattern is formed on the electrostatic drum 114. The latent image is developed by a developing unit (toner cartridge) 115 around the electrostatic drum 114 and then transferred to a recording sheet.

  C (cyan), Y (yellow), and K (black) have the same image formation / development mechanism as M (magenta), and 120, 121, 122, 123, 124, and 125 are C (cyan) images. Formation / development mechanism, 130, 131, 132, 133, 134, 135 are Y (yellow) image formation / development mechanisms, 140, 141, 142, 143, 144, 145 are K (black) image formation / development mechanisms. Development mechanism. The individual functions are the same as those of the M (magenta) image forming / developing mechanism, and a description thereof will be omitted.

  A cut sheet is used as the recording paper, and the cut sheet recording paper is stored in a paper feed cassette 102 mounted on the LBP and is kept at a certain height by a spring 103. A paper feed roller 104 and transport rollers 105 and 106 are used. Are taken into the apparatus, are placed on the sheet conveying belt 107, and pass through each image forming / developing mechanism of MCYK.

  Each MCYK toner (powder ink) transferred to the recording paper is fixed to the recording paper by heat and pressure by the fixing unit 108, and the recording paper is output to the upper part of the LBP main body by the conveying rollers 109 and 150.

  FIG. 2 is a block diagram illustrating the configuration of the printer control system according to the embodiment of the present invention.

  Here, a laser beam printer (FIG. 1) will be described as an example. As long as the functions of the present invention are executed, the present invention can be used for a single device, a system composed of a plurality of devices, or a system in which processing is performed via a network such as a LAN. It goes without saying that the invention can be applied.

  In FIG. 2, reference numeral 2000 denotes a host computer, which executes document processing in which graphics, images, characters, tables (including spreadsheets), etc. are mixed based on a document processing program stored in a ROM 3 program ROM. The CPU 1 generally controls each device that includes the CPU 1 and is connected to the system device 4.

  The ROM 3 program ROM stores a control program of the CPU 1, the ROM 3 font ROM stores font data used for the document processing, and the ROM 3 data ROM. Stores various data used when performing the document processing or the like.

  Reference numeral 2 denotes a RAM which functions as a main memory, work area, and the like for the CPU 1. A keyboard controller (KBC) 5 controls key input from a keyboard 9 or a pointing device (not shown). Reference numeral 6 denotes a CRT controller (CRTC) which controls display on a CRT display (CRT) 10. A memory controller (MC) 7 is an access to the external memory 11 such as a hard disk (HD) or floppy (registered trademark) disk (FD) for storing a boot program, various applications, font data, user files, edit files, and the like. To control. A printer controller (PRTC) 8 is connected to the printer 1000 via a predetermined bidirectional interface (interface) 21 and executes communication control processing with the printer 1000.

  Note that the CPU 1 executes, for example, an outline font development (rasterization) process on the display information RAM set on the RAM 2 to enable WYSIWYG on the CRT 10.

  The CPU 1 opens various windows registered based on commands instructed by a mouse cursor (not shown) on the CRT 10 and executes various data processing.

  In the printer 1000, reference numerals 1001, 1002, 1003, and 1004 are controller boards that execute data processing in parallel and can transmit and receive data via the system bus 44.

  12, 21, 30, and 37 are printer CPUs, which are based on control programs stored in the program ROM of the ROMs 14, 23, 32, and 39, or control programs stored in the external memories 20, 29, 36, and 43. Access to various devices connected to the system buses 15, 24, 33, and 40 is comprehensively controlled.

  The controller 1002 outputs an image signal as output information to a printing unit (printer engine) 28 connected via the printing unit interface 25.

  In the case of a printer that does not have the external memory 20 such as a hard disk in the ROM 14 data ROM, the font data used in generating the output information is stored in the ROM for fonts ROM 14, 32, 39. Stores information used on the host computer.

  The CPU 12 can communicate with the host computer via the input unit 16 and can notify the host computer 2000 of information in the printer.

  The RAMs 13, 22, 31, and 38 are RAMs that function as main memories and work areas for the CPUs 12, 21, 30, and 37. The RAMs can be expanded by an optional RAM that is connected to an expansion port (not shown). Has been.

  The RAMs 13, 22, 31, and 38 are used for an output information expansion area, an environment data storage area, an NVRAM, and the like.

  Access to the external memories 20, 29, 36, and 43 such as the hard disk (HD) and IC card is controlled by the memory controllers (MC) 17, 26, 35, and 42.

  The external memories 20, 36, 43 are connected as options and store font data, emulation programs, form data, and the like.

  The interface units 18, 27, 34, and 41 are connected to the controllers 1001, 1002, 1003, and 1004 via the system bus 44, and communicate with each other.

  Reference numeral 19 denotes an operation panel described above on which an operation switch, an LED display, and the like are arranged.

  Further, the number of external memories is not limited to one, and at least one external memory is provided so that an optional font card and a plurality of external memories storing programs for interpreting printer control languages with different language systems can be connected in addition to the built-in font. It may be configured. Further, an NVRAM (not shown) may be provided to store printer mode setting information from the operation panel 19.

  FIG. 3 shows a flowchart in the CPU 12.

  In step 301, PDL data is received from the host computer 2000, and it is determined whether or not processing for making the PDL data page independent is necessary.

If necessary, go to step 302. If not, the process proceeds to step 305. Here, page independence is unnecessary if any of the following conditions is met.
PDL data is already page independent. The CPUs 30 and 37 of the controllers 1003 and 1004 are sufficiently fast.

  In step 302, the PDL data is processed and converted into a format in which the data can be separated in units of pages.

  In step 303, it is determined whether or not the controller 1003, 1004 is converted into a format (= display list) that can be processed by rendering hardware (not shown). If so, go to step 304. If not converted, the process proceeds to step 305. Here, whether or not to convert is determined by whether or not the CPUs 30 and 37 of the controllers 1003 and 1004 are sufficiently fast.

  Step 304 converts to a display list.

  Step 305 selects whether to distribute different pages to the controllers 1003 and 1004 or to transmit the same entire job. If the page is distributed, the process proceeds to step 306. If the page is not allocated, the process proceeds to step 307. Here, in any of the following conditions, it is determined that the same entire job is sent. Different outputs are generated by the controllers 1003 and 1004 for the same job. The CPUs 30 and 37 are sufficiently fast with respect to the printing unit 28.

  In step 307, the PDL data is transmitted to the controllers 1003 and 1004 via the interface unit 18.

  Here, when allocating pages, different pages are transmitted to the controllers 1003 and 1004 to request parallel processing. When page allocation is not performed, the same page is transmitted to each of the controllers 1003 and 1004.

  FIG. 4 shows an example of the display list.

  FIG. 4A shows a display list. FIG. 4B shows a drawing bitmap image generated by rendering hardware (not shown).

  In the display list creation in step 304, first. It is determined whether the input command is a character command, a graphic command, or an image command, and each is displayed in a display list (FIG. 4A).

  Specifically, the object 1 includes an attribute: character, print position (X, Y), font, size, character code, color, drawing logic, and the object 2 includes an attribute: graphic, print position (X, Y), shape. (Circle), radius, color, drawing logic, and as object 3, attributes: image, print position (X, Y), image width, height, pointer to the entity of the image, and drawing logic.

  Here, the drawing logic of all objects indicates a processing method when combining data already drawn and each object.

  Thus, the display list includes information on the shape, color, and print position of each drawing object.

  When the display list is rendered by the rendering hardware, a rendering bitmap image (FIG. 4-2) is obtained.

  Here, the drawing bitmap image (FIG. 4-2) is obtained by drawing the display list at 8 bits / pixel for each color of RGB. A portion where nothing is drawn is represented by white RGB = (0xff, 0xff, 0xff).

  FIG. 5 is a flowchart of the controllers 1003 and 1004.

  Step 501 is a resolution setting unit that sets a resolution at which a job is generated in accordance with the designation of the controller 1001. Here, different resolutions may be set in the controllers 1003 and 1004.

  Step 502 determines whether display listing is necessary. If necessary, go to step 503. If not, go to step 504.

  Here, if the display list is already made by the controller 1001, it is determined that the display list is unnecessary.

  Step 503 converts the PDL data into a display list. Here, a display list is generated according to the resolution setting in step 501.

  Step 504 is a rendering unit for rendering the display list. Here, the resolution of the rendered bitmap image may be converted in accordance with the resolution in step 501.

  In step 505, the rendered bitmap image is transferred to the controller 1002 or the K-roller 1001.

  In step 305, when page allocation is determined, if different outputs are generated by the controllers 1003 and 1004 for the same job, page allocation is not performed, but different outputs are for printing to the printing unit 29. When the display to the operation unit 19 and the transfer to the host computer 2000 are necessary, it is necessary to generate data by changing the resolution.

  In this case, in step 307, the same job is sent to the controllers 1003 and 1004, and different resolution settings are sent.

  In step 505, the printing data is sent to the controller 1002 and then sent to the printing unit 28. The display data is sent to the controller 1001 and then sent to the operation unit 19. The transfer data is sent to the controller 1001 and then sent to the host computer 2000 via the input unit 16.

  In the first embodiment, the resolution is set in step 501, but the color space of the bitmap image generated by the rendering unit 504 may be set. This is because CMYK is suitable for printing, RGB is suitable for display, and host computer transfer is RGB.

  In this case, in the case of determining page allocation in step 305, if different outputs are generated by the controllers 1003 and 1004 for the same job, page allocation is not performed. When printing, display on the operation unit 19, and transfer to the host computer 2000 are required, data generation is required by changing the color space generated for them.

  In this case, in step 307, the same job is sent to the controllers 1003 and 1004, and different color space settings are sent.

  In step 505, the printing data is sent to the controller 1002 and then sent to the printing unit 28. The display data is sent to the controller 1001 and then sent to the operation unit 19. The transfer data is sent to the controller 1001 and then sent to the host computer 2000 via the input unit 16.

  In the first embodiment, the resolution is set in step 501, but a page generated by the rendering unit 504 may be set. This enables distributed processing in which even pages are output in 1003 and odd pages are output in 1004 after receiving the same job in the controllers 1003 and 1004.

  In this case, in the case of determining page allocation in step 305, if different outputs are generated by the controllers 1003 and 1004 for the same job, page allocation is not performed, but different outputs are the same in 1003 and 1004. This is a case where it is necessary to generate data by changing the page based on the job.

  In this case, in step 307, the same job is sent to the controllers 1003 and 1004, and different page output settings are sent.

  In step 505, only the designated page is sent to the controller 1002.

It is sectional drawing which shows the internal structure of LBP of an Example. 1 is a block diagram illustrating a configuration of a printer control system according to an embodiment of the present invention. The flowchart in CPU12 is shown. An example of a display list is shown. An example of a drawing bitmap image generated by rendering hardware is shown. 3 is a flowchart of controllers 1003 and 1004.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Printer main body 101 Printer control unit 102 Paper feed cassette 103 Spring for raising paper 104 Paper feed roller 105 Paper transport roller 106 Paper transport roller 107 Paper transport belt 108 Fixing device 109 Paper transport roller 110 Laser driver (for magenta)
111 Semiconductor laser emitting device (for magenta)
112 Laser beam (for magenta)
113 Rotating polygon mirror (for magenta)
114 Electrostatic drum (for magenta)
115 Toner cartridge (for magenta)
120 Laser driver (for cyan)
121 Semiconductor laser emitting device (for cyan)
122 Laser beam (for cyan)
123 Rotating polygon mirror (for cyan)
124 Electrostatic drum (for cyan)
125 toner cartridge (for cyan)
130 Laser driver (for yellow)
131 Semiconductor laser emitting device (for yellow)
132 Laser beam (for yellow)
133 Rotating polygon mirror (for yellow)
134 Electrostatic drum (for yellow)
135 Toner cartridge (for yellow)
140 Laser driver (for black)
141 Semiconductor laser emitting device (for black)
142 Laser beam (for black)
143 Rotating polygon mirror (for black)
144 Electrostatic drum (for black)
145 Toner cartridge (for black)
150 Paper transport roller 151 Operation panel 201 Host computer 202 Input / output interface unit 203 with host computer Input buffer 204 Character pattern generator 205 RAM
206 Storage area 207 for storing various registration data and printing environment, etc. Font cache area 208 CPU
209 Storage area 210 in which print data is accumulated Renderer 211 Band buffer 212 in which a final output image is generated Compression unit 213 Page memory 214 Expansion unit 215 Color conversion unit 216 Output interface unit 217 to printing mechanism unit Printing mechanism unit 218 Input data from host computer 219 ROM
220 NVRAM
221 Data transmitted from LBP to host computer 222 Font information part 223 Character pattern part

Claims (14)

A printer device connected to a host computer, wherein a plurality of CPUs and a plurality of rendering devices in the printer device, and means for outputting input PDL (Print Description Language) data to a single printing device;
A printing control apparatus comprising:
Means for receiving PDL data at the first CPU;
Conversion means for converting PDL data into intermediate data that can be edited independently for each page or a display list that can be processed by a rendering device independent for each page;
Means for distributing PDL data or intermediate data or display list to a plurality of CPUs or a plurality of rendering devices;
A means for selecting a distribution unit by page,
In the case where processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions,
A printing control apparatus comprising: The means for distributing the PDL data, intermediate data, or display list to a plurality of CPUs or a plurality of rendering devices,
If the PDL data is independent for each page, the PDL data is distributed to a plurality of CPUs. If not, the intermediate data that can be edited independently for each page by the first CPU, or independent for each page. The print control apparatus according to claim 1, wherein the print control apparatus converts the display list into a display list that can be processed by a rendering device. The means for distributing the PDL data, intermediate data, or display list to a plurality of CPUs or a plurality of rendering devices,
2. The print control apparatus according to claim 1, wherein if the CPU of the distribution destination is high, it is distributed in the form of PDL data or intermediate data, and if the CPU capacity is low, it is distributed in the form of a display list. The means that can select the distribution unit in units of pages is:
A means for selecting whether to distribute different pages or the same page to multiple distribution destinations,
The print control apparatus according to claim 1, further comprising: The means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations,
5. The print control apparatus according to claim 4, wherein if the PDL is not independent for each page, the entire job is transferred to a plurality of CPUs. The means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations,
5. The print control apparatus according to claim 4, wherein the same page is transferred to a plurality of CPUs or a plurality of rendering devices if the distribution destination CPU or rendering device is sufficiently faster than the printing device. The means for selecting whether to distribute different pages or the same page to a plurality of distribution destinations,
5. The print control apparatus according to claim 4, wherein if it is necessary to obtain different rendering results for the same page, the same page is transferred to a plurality of CPUs or a plurality of rendering devices. When the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices depending on conditions,
The print control apparatus according to claim 1, wherein a plurality of CPUs or a plurality of rendering devices output different pages, and the processing is switched so that one job can be made in total. When the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices depending on conditions,
The print control apparatus according to claim 1, wherein the processing method is switched so as to output different output color spaces. When the processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, the means for switching the processing method for each of the plurality of CPUs or the plurality of rendering devices depending on conditions,
The print control apparatus according to claim 1, wherein the processing method is switched so as to output different resolutions. The means for switching the processing method to output different output color spaces,
The print control apparatus according to claim 9, wherein the process is switched in accordance with an output destination / output purpose designation such as printing, screen display, and transmission. The means for switching the processing method so as to output different resolutions, respectively,
11. The print control apparatus according to claim 10, wherein the process is switched in accordance with an output destination / output purpose designation such as printing, screen display, and transmission. A printer device connected to a host computer, wherein a plurality of CPUs and a plurality of rendering devices in the printer device, and means for outputting input PDL (Print Description Language) data to a single printing device;
In a data processing method of a printing control apparatus comprising:
Means for receiving PDL data at the first CPU;
Conversion means for converting PDL data into intermediate data that can be edited independently for each page or a display list that can be processed by a rendering device independent for each page;
Means for distributing PDL data or intermediate data or display list to a plurality of CPUs or a plurality of rendering devices;
A means for selecting a distribution unit by page,
In the case where processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions,
A data processing method for a print control apparatus, comprising: A printer device connected to a host computer, wherein a plurality of CPUs and a plurality of rendering devices in the printer device, and means for outputting input PDL (Print Description Language) data to a single printing device;
In a storage medium storing a computer-readable program comprising:
Means for receiving PDL data at the first CPU;
Conversion means for converting PDL data into intermediate data that can be edited independently for each page or a display list that can be processed by a rendering device independent for each page;
Means for distributing PDL data or intermediate data or display list to a plurality of CPUs or a plurality of rendering devices;
A means for selecting a distribution unit by page,
In the case where processing of the same page is distributed to a plurality of CPUs or a plurality of rendering devices, means for switching a processing method for each of a plurality of CPUs or a plurality of rendering devices depending on conditions,
A storage medium storing a computer-readable program.