CN102419698B - Proofing method and proofing processor - Google Patents

Abstract

The invention provides a proofing method. The proofing method comprises the following steps of: obtaining work by a proofing processor; obtaining all available proofing equipment; and distributing the work to the proofing equipment according to the load of each piece of the proofing equipment. The invention further provides the proofing processor which comprises a work module, an equipment module and a distribution module, wherein the work module is used for obtaining the work; the equipment module is used for obtaining all the available proofing equipment; and the distribution module is used for distributing the work to the proofing equipment according to the load of each piece of the proofing equipment. According to the proofing method and the proofing processor provided by the invention, the proofing effects with high efficiency and low cost can be realized.

Description

Proofing method and proofing processor

Technical field

The present invention relates to print field, in particular to proofing method and proofing processor.

Background technology

The forme of making, be contained in the work that tries seal on proof press, be called and draw a design.Drawing a design is an important procedure, correctly reproduce tint hierarchy and the color of master.The effect of drawing a design is: 1, check the quality of each operation of plate-making, utilize the effect of drawing a design to check color separation etc., feed back to front operation, so that change.2, for client provides, examine and revise foundation, advance sheet can be sent to press after client's signature.3, for formal printing provide mass colour, specification etc. according to and reference data.

Factory for example accepts customer consignment and client, to the specification requirement of product (color, filling material etc.), makes in advance sample one or several (or the samples of first drawing), after revising and confirm, signs production contract to client, starts volume production.Draw a design and belong to the preparation work of taking product in a kind of early stage.

Tradition is drawn a design and is referred to, with the essentially identical situation of printing condition under (as paper, ink, mode of printing etc.), shine the forme make with master, be arranged on proof press, print, obtain specimen page.

Digital sample printing refers to, the page (or printed sheet) data that color disk-top system is made, without any type of simulation means, directly through color printer (ink-jet, laser or other modes) output specimen page, to check the image page quality that prints front operation, for printing process provides with reference to specimen page, and provide the foundation that can sign and send to press for user.This digital sample printing technology, is not simple according to printing output color proof, but by complicated color management software, makes the specimen page of output can reproduce supporting with it print sample, comprises that many-sided couplings such as paper, ink and printability are with similar.

Compare tradition and draw a design, digital sample printing color simulation is true, has got rid of human factor; Cost-saving, to operating personnel's experience, rely on little; Specimen page output quality is stable, repeatability is strong; Wide adaptability.

Inventor finds in prior art, and proofing processor has often connected the load equipment of many operations of can drawing a design, but requires user to specify uniquely a load equipment as default proofing facility.When the working load of drawing a design is very large, this default proofing facility is often consuming time very long.

The output speed of proofing system is the bottleneck of this technical development always.In order to address this problem, user often adopts high performance proofing facility.Although more the proofing facility of high-quality, faster speed is constantly released in recent years, can alleviate this situation to a certain extent, these high-performance proofing facilities are often expensive, limited by hardware means and improved the application of proofing system output speed and popularize.

Summary of the invention

The present invention aims to provide a kind of proofing method and proofing processor, to solve prior art, processes the Cost Problems of large load print job by high-performance proofing facility.

In an embodiment of the present invention, provide a kind of proofing method, having comprised: proofing processor obtains operation; Obtain all available proofing facilities; Load according to each proofing facility, is assigned to proofing facility by operation; According to the load of proofing facility described in each, described operation is assigned to described proofing facility and comprises:

A) determine the number N of number M and the described available proofing facility of described operation, and obtain the peak load Ci of proofing facility Di described in each, wherein 1<=i<=N, and i is integer;

B) if M≤N distributes respectively a described operation for front M described proofing facility; If M>N, the operation number distributing for proofing facility Di described in each be respectively MIN (INT (M/N), Ci), wherein MIN () is for getting minimum value function, INT () is downward bracket function;

C) the unappropriated described operation of residue is repeated to above-mentioned steps A) and step B), until described operation is assigned.

In an embodiment of the present invention, provide a kind of proofing processor, having comprised: operation module, for obtaining operation; EM equipment module, for obtaining all available proofing facilities; Distribution module, for according to the load of each proofing facility, is assigned to proofing facility by operation;

Described distribution module comprises: the 3rd acquisition module, for determining the number M of described operation and the number N of described available proofing facility, and obtaining the peak load Ci of proofing facility Di described in each, wherein 1<=i<=N, and i is integer;

The 3rd distribution module, if for M≤N, distributes respectively a described operation for front M described proofing facility; If M>N, the operation number distributing for proofing facility Di described in each be respectively MIN (INT (M/N), Ci), wherein MIN () is for getting minimum value function, INT () is downward bracket function;

Poll module, for the unappropriated described operation of residue being repeated to call described the 3rd acquisition module and described the 3rd distribution module, until described operation is assigned.

The proofing method of the embodiment of the present invention and proofing processor are because distribute operation according to the load of proofing facility, so no longer rely on the operation of drawing a design that high-performance proofing facility is processed large load, overcome and adopted the higher problem of high-performance proofing facility cost, the present invention has realized the effect that high efficiency, low cost is drawn a design.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 shows the process flow diagram of proofing method according to an embodiment of the invention;

Fig. 2 shows the process flow diagram of load balancing allocation step in proofing method in accordance with a preferred embodiment of the present invention;

Fig. 3 shows the screenshot capture that proofing facility load balance in accordance with a preferred embodiment of the present invention arranges interface;

Fig. 4 shows the schematic diagram of proofing processor according to an embodiment of the invention.

Embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the present invention in detail.

Fig. 1 shows the process flow diagram of proofing method according to an embodiment of the invention, comprising:

Step S10, proofing processor obtains operation;

Step S20, obtains all available proofing facilities;

Step S30, the load according to each proofing facility, is assigned to proofing facility by operation.

In prior art, proofing processor has often connected the load equipment of many operations of can drawing a design, but requires user to specify uniquely a load equipment as default proofing facility.When the working load of drawing a design is very large, this default proofing facility is often consuming time very long.And in the present embodiment, no longer operation to be distributed to the default proofing facility of user's appointment defaultly, but consider that proofing processor has often connected the load equipment of many operations of can drawing a design, so according to the load of each proofing facility, operation is assigned to proofing facility.This method has been given full play to the processing power of many proofing facilities, and no longer All Jobs is focused on a proofing facility, therefore no longer rely on the operation of drawing a design that high-performance proofing facility is processed large load, overcome and adopted the higher problem of high-performance proofing facility cost, this embodiment has realized the effect that high efficiency, low cost is drawn a design.

Preferably, step S20 comprises: obtain the load equipment list of proofing processor, load equipment list comprises all load equipments that proofing processor is installed; From load equipment list, determine the load equipment that can be used as proofing facility.

It should be noted that the present embodiment does not limit local device or the network equipment that load equipment is proofing processor, and allow user to install in the middle of application or unloading load equipment, dynamically upgrade the load equipment list of proofing processor.

Although proofing processor is installed a plurality of load equipments, be not that each load equipment is applicable to the operation of drawing a design, so this preferred embodiment is determined the load equipment that can be used as proofing facility from load equipment list, thereby guaranteed the normal process of operation.

Preferably, step S30 comprises: obtain each proofing facility when preload and peak load thereof; Guaranteeing to be no more than under the prerequisite of peak load, each operation is assigned to the proofing facility when preload minimum successively.

Preferably, step S30 comprises: obtain each proofing facility when preload and peak load thereof; Calculate each proofing facility and complete it when the time of preload with its processing power; Guaranteeing to be no more than under the prerequisite of peak load, each operation has been assigned to it successively when the proofing facility of the shortest time of preload.

Preferably, step S30 comprises: A) determine the number N of number M and the available proofing facility of operation, and obtain the peak load Ci of each proofing facility Di, wherein i<N; B) if M≤N distributes respectively an operation for a front M proofing facility; If M>N, the operation number distributing for each proofing facility Di be respectively MIN (INT (M/N), Ci), wherein MIN () is for getting minimum value function, INT () is downward bracket function; C) the unappropriated operation of residue is repeated to above-mentioned steps A and step B, until operation is assigned.

Above three preferred embodiments provide three kinds according to the scheme of load distribution operation.The first scheme is the quantity mean allocation of loading simply; First scheme has been further considered the processing power of each proofing facility, thereby realized the equilibrium in duration of load application, distributes, and can meet consumers' demand better; The third scheme is poll allocation scheme, can be combined with the first scheme or first scheme, is applicable to the distribution of operation in enormous quantities.

Fig. 2 shows the process flow diagram of load balancing allocation step in proofing method in accordance with a preferred embodiment of the present invention.The job queue of take is below example, describes the preferred embodiment.

First the ready site file that will draw a design.Next the current actual loading situation of proofing processor that inquiry is paid close attention to, and obtain current all available load equipment lists.As required, revise or reset the load list of proofing processor.For example, the ID of the proofing processor that user will arrange is ID001, and current available load equipment list is: Printer001, Printer002, Printer003, Printer004, Printer005, Printer006.The load list that user arranges ID001 is: Printer001, Printer002, Printer003, Printer004.Suppose that Printer001 load capacity threshold value (the acceptable maximum operation number of synchronization, can be specified by user) is that 3, Printer002 load capacity threshold value is that 4, Printer003 load capacity threshold value is that 5, Printer006 load capacity threshold value is 6.

Next carry out the setting of load balance parameter.As shown in Figure 3, by the configuration tool of proofing facility load balance, current proofing facility loading condition is understood in inquiry, customizes as required new proofing facility load list.Here be assumed to be N proofing facility of proofing processor configuration.For example, inquiring ID is 16 current load list and the current all available list of devices of proofing processor.In prior art, conventionally can directly select the processing of drawing a design of default device in this list of devices, or manually specify the processing of drawing a design of an equipment by user.And in the embodiment of the present invention, by automatically according to the load of each proofing facility, operation is assigned to proofing facility.In the preferred embodiment of the present invention, allow this list to make at random and revise, for example increase or minimizing equipment, to realize the setting of load balance parameter.

Next carry out the distribution of operation poll, as shown in Figure 2, comprise the following steps:

Step S1, to M operation of proofing processor input.

(2) load balance scheduling module: the proofing facility parameter that acquisition module (1) arranges, adopt modified polling algorithm, according to the load capacity of load equipment used, dynamic assignment operation is to each load equipment.Here each load equipment is taked to task Principle of Average Allocation.This is a kind of task Principle of Average Allocation meeting under load equipment load capacity prerequisite.With load balance parameter in module (1), be set to example, suppose to submit 100 parts of operations to, so, the load operation number of Printer001, Printer002, Printer003, Printer004 is respectively 3,4,5,6.Then enter poll.If operation number becomes 2 in the job queue of inquiry discovery Printer001, dispatching algorithm will be sent into an operation again to the job queue of Printer001 so, makes the actual loading number of Printer001 reach threshold value; If operation number equals threshold value in the job queue of Printer001, inquire about next load equipment Printer002; By that analogy.If operation is all assigned, poll no longer.

(3) processing module of drawing a design: the load balance device parameter arranging according to module (1), adopts the load balance scheduling algorithm in module (2), the processing of drawing a design.

Step S2, if operation number M is not more than 0, end process.

Step S3, otherwise, judge whether operation number is greater than number of devices.

Step S4-S5, if operation number is not more than number of devices (M<=N), before M(M<=N) individual equipment D1, D2 ..., DM is respectively assigned to an operation, is expressed as D1(1), D2(1) ..., DM(1).

Step S6-S7, each equipment that is assigned to operation is once exported the processing that can complete All Jobs in input work queue (M).

Step S8-S9, if operation number is greater than number of devices (M>N), each equipment Di(1<=i<=N) the actual operation number receiving be INT (M/N) and Ci(1<=i<=N) in smaller, be expressed as MIN (INT (M/N), Ci), wherein, INT () is bracket function.Wherein, Ci is the each maximum number that can accept operation for each equipment appointment.So, epicycle equipment D1, D2 ..., the operation number of DN actual allocated be respectively MIN (INT (M/N), C1), MIN (INT (M/N), C2) ..., MIN (INT (M/N), CN).

Step Sa, outputs to each proofing facility by operation.

Step Sb, after epicycle output, in input work queue, actual also remaining operation number is: M=M-MIN (INT (M/N), C1)-MIN (INT (M/N), C2)-...-MINMIN (INT (M/N), CN), and get back to step S2, until M be 0 or processing finish.

This preferred embodiment has been realized the raising of the efficiency of drawing a design by efficient load balancing strategy.

Fig. 4 shows the schematic diagram of proofing processor according to an embodiment of the invention, comprising:

Operation module 10, for obtaining operation;

EM equipment module 20, for obtaining all available proofing facilities;

Distribution module 30, for according to the load of each proofing facility, is assigned to proofing facility by operation.

This proofing processor has been given full play to the processing power of many proofing facilities, and no longer All Jobs is focused on a proofing facility, therefore no longer rely on the operation of drawing a design that high-performance proofing facility is processed large load, overcome and adopted the higher problem of high-performance proofing facility cost, this embodiment has realized the effect that high efficiency, low cost is drawn a design.

Preferably, EM equipment module 20 comprises: load equipment module, and for obtaining the load equipment list of proofing processor, load equipment list comprises all load equipments that proofing processor is installed; Available devices module, for determining the load equipment that can be used as proofing facility from load equipment list.

Although proofing processor is installed a plurality of load equipments, be not that each load equipment is applicable to the operation of drawing a design, so this preferred embodiment is determined the load equipment that can be used as proofing facility from load equipment list, thereby guaranteed the normal process of operation.

Preferably, distribution module 30 comprises: the first acquisition module, for obtaining the preload of working as of each proofing facility; The first distribution module, for being assigned to successively the proofing facility when preload minimum by each operation.

Preferably, distribution module 30 comprises: the second acquisition module, for obtaining the preload of working as of each proofing facility; Computing module, completes it when the time of preload for calculating each proofing facility with its processing power; The second distribution module, for being assigned to each operation successively it when the proofing facility of the shortest time of preload.

Preferably, distribution module 30 comprises: the 3rd acquisition module, for determining the number N of number M and the available proofing facility of operation, and obtains the peak load Ci of each proofing facility Di, wherein i<N; The 3rd distribution module, if for M≤N, distributes respectively an operation for a front M proofing facility; If M>N, the operation number distributing for each proofing facility Di be respectively MIN (INT (M/N), Ci), wherein MIN () is for getting minimum value function, INT () is downward bracket function; Poll module, for the unappropriated operation of residue being repeated to call the 3rd acquisition module and the 3rd distribution module, until operation is assigned.

Above three preferred embodiments provide three kinds according to the scheme of load distribution operation.The first scheme is the quantity mean allocation of loading simply; First scheme has been further considered the processing power of each proofing facility, thereby realized the equilibrium in duration of load application, distributes, and can meet consumers' demand better; The third scheme is poll allocation scheme, can be combined with the first scheme or first scheme, is applicable to the distribution of operation in enormous quantities.

As can be seen from the above description, the above embodiments of the present invention are in the processing of drawing a design, and the load balance scheduling algorithm by design, is evenly distributed to a plurality of load equipments by operation, thereby improve the efficiency of drawing a design.Meanwhile, user can also pass through a load balance configuration tool, realizes easily the customization of load balance equipment.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby they can be stored in memory storage and be carried out by calculation element, or they are made into respectively to each integrated circuit modules, or a plurality of modules in them or step are made into single integrated circuit module to be realized.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (8)

1. a proofing method, is characterized in that, comprising:

Proofing processor obtains operation;

Obtain all available proofing facilities;

According to the load of proofing facility described in each, described operation is assigned to described proofing facility;

According to the load of proofing facility described in each, described operation is assigned to described proofing facility and comprises:

A) determine the number N of number M and the described available proofing facility of described operation, and obtain the peak load Ci of proofing facility Di described in each, wherein 1<=i<=N, and i is integer;

B) if M≤N distributes respectively a described operation for front M described proofing facility; If M>N, the operation number distributing for proofing facility Di described in each be respectively MIN (INT (M/N), Ci), wherein MIN () is for getting minimum value function, INT () is downward bracket function;

C) the unappropriated described operation of residue is repeated to above-mentioned steps A) and step B), until described operation is assigned.

2. method according to claim 1, is characterized in that, obtains all available proofing facilities and comprises:

Obtain the load equipment list of described proofing processor, described load equipment list comprises all load equipments that described proofing processor is installed;

From described load equipment list, determine the load equipment that can be used as described proofing facility.

3. method according to claim 1, is characterized in that, according to the load of proofing facility described in each, described operation is assigned to described proofing facility and comprises:

Obtain proofing facility described in each when preload and peak load thereof;

Guaranteeing to be no more than under the prerequisite of described peak load, operation described in each is assigned to the described proofing facility when preload minimum successively.

4. method according to claim 1, is characterized in that, according to the load of proofing facility described in each, described operation is assigned to described proofing facility and comprises:

Obtain proofing facility described in each when preload and peak load thereof;

Calculate proofing facility described in each and complete described in it time when preload with its processing power;

Guaranteeing to be no more than under the prerequisite of described peak load, operation described in each has been assigned to described in it to the described proofing facility when the shortest time of preload successively.

5. a proofing processor, is characterized in that, comprising:

Operation module, for obtaining operation;

EM equipment module, for obtaining all available proofing facilities;

Distribution module, for according to the load of proofing facility described in each, is assigned to described proofing facility by described operation;

Described distribution module comprises: the 3rd acquisition module, for determining the number M of described operation and the number N of described available proofing facility, and obtaining the peak load Ci of proofing facility Di described in each, wherein 1<=i<=N, and i is integer;

The 3rd distribution module, if for M≤N, distributes respectively a described operation for front M described proofing facility; If M>N, the operation number distributing for proofing facility Di described in each be respectively MIN (INT (M/N), Ci), wherein MIN () is for getting minimum value function, INT () is downward bracket function;

Poll module, for the unappropriated described operation of residue being repeated to call described the 3rd acquisition module and described the 3rd distribution module, until described operation is assigned.

6. proofing processor according to claim 5, is characterized in that, described EM equipment module comprises:

Load equipment module, for obtaining the load equipment list of described proofing processor, described load equipment list comprises all load equipments that described proofing processor is installed;

Available devices module, for determining the load equipment that can be used as described proofing facility from described load equipment list.

7. proofing processor according to claim 5, is characterized in that, described distribution module comprises:

The first acquisition module, for obtaining the preload of working as of proofing facility described in each;

The first distribution module, for being assigned to operation described in each successively the described proofing facility when preload minimum.

8. proofing processor according to claim 5, is characterized in that, described distribution module comprises:

The second acquisition module, for obtaining the preload of working as of proofing facility described in each;

Computing module, completes described in it time when preload for calculating proofing facility described in each with its processing power;

The second distribution module, for being assigned to operation described in each successively described in it described proofing facility when the shortest time of preload.