CN101110651B - Spending treatment method for super-integrated chip - Google Patents

Abstract

The present invention provides a high-density integrated chip overhead processing method, which arranges an integrated processing module and a plurality of service modules on a high-density integrated chip. Wherein, the integrated processing module is respectively connected with each service module. The service module processes sent overhead values. The integrated processing module processes expected and received overhead values. The method includes procedures below: Procedure I. Arrange an expected overhead value buffer zone to store expected overhead values to be processed by tasks; Procedure II. Arrange a mapping table to store all service channels of each service module and correspondence amongst all channels of the integrated processing module; Procedure III. Write the expected overhead value into a corresponding expected overhead buffer zone as an incident that one task arranges expected overhead values and then arrange the expected overhead value into a corresponding channel register of the integrated processing module according to the mapping table. The present invention properly solves problems of high-density chip overhead processing and is excellently compatible with optical transmission SDH equipments according to processing incidents of the service module.

Description

A kind of method of high-density integration chip overhead processing

Technical field

The present invention relates to the optical transmission field, particularly relevant for a kind of method of high-density integration chip overhead processing.

Background technology

Along with the develop rapidly of ICT (information and communication technology) and the raising of quality of life, now market to the active demand of optical transmission SDH equipment is: it can be operated in the metropolitan area of abominable relatively, the unserviced base station of operational environment and " an inch of land is an inch of gold ", and can realize that butt joint with other optical transmission SDH equipment is to form different transmission networks.Volume is little, light weight, price is low, business interface is abundant, adaptive capacity to environment is strong integrated miniaturization SDH equipment are arisen at the historic moment in this case.The high-density integration chip of mentioning among the present invention is useful in this chip in the miniaturization SDH equipment just.

Overhead management is a critical function module of optical transmission SDH equipment, and it is significant for the Operation Administration and Maintenance of network, has greatly strengthened the automaticity of network.According to the direction difference, expense is divided into: transmission value, reception value and desired value, and they are defined as follows:

The transmission value of expense: the insertion value of expense.

The reception value of expense: the actual overhead value of receiving.

The desired value of expense: the overhead value that expectation or prior agreement should be received.In optical transmission SDH equipment, relatively the reception value and the desired value of expense produce corresponding alarm and performance.In the past, chip manufacturer adopted the expense of each business module to focus in this business module mostly.Now, in order to adapt to the demand of miniaturization SDH equipment, some highly integrated chips have appearred, they are highly integrated a plurality of business modules on hardware not only, and on the problem of overhead processing, according to the direction different mining of expense with two kinds of different processing modes: the expense insertion portion is handled in each business module; All the other overhead processing (comprising the processing of expense desired value and reception value) focus on a unified processing module.In addition, to focus on the corresponding relation between each business module of module and front be dynamic change to the expense of back.

Fig. 1 is the corresponding relation figure between the passage of certain service channel of certain business module among the present invention and integrated processing module.As shown in Figure 1, comprise on the chip: business module 110 and integrated processing module 120, integrated processing module 120, be used for processing expenditure desired value and expense reception value, at a time, move towards relation, form mapping relations one to one between them according to the business of each business module 110.How allowing co-ordination between the integrated processing module 120 of expense and each business module 110, and then solve the overhead processing problem, is the problem of always having inquired into since this class chip comes out, also this patent problem to be solved just.

Summary of the invention

For addressing the above problem, the objective of the invention is to propose a kind of effective ways that solve the overhead processing of high-density integration chip.And then solution high-density integration chip overhead processing problem.

For achieving the above object, the present invention proposes a kind of method of high-density integration chip overhead processing, integrated processing module and a plurality of business module are set on high-density integration chip, described integrated processing module is connected respectively with each business module, described business module processing expenditure transmission value, described integrated processing module processing expenditure desired value and reception value wherein, may further comprise the steps:

Step 1 is provided with expense desired value buffering area, is used for the expense desired value that store tasks need be handled;

Step 2 is provided with mapping table, is used for preserving in real time the corresponding relation between each passage of each service channel of each business module and integrated processing module;

Step 3, when receive certain task the incident of expense desired value is set the time, described expense desired value is write the expense desired value buffering area of described correspondence, and described expense desired value is set in the respective channel register of integrated processing module according to described mapping table.

The method of above-mentioned high-density integration chip overhead processing wherein, also comprises:

When the incident of the inquiry expense reception value of receiving certain task,, from the respective channel register of described integrated processing module, obtain the step of described expense reception value according to described mapping table.

The method of above-mentioned high-density integration chip overhead processing wherein, also comprises:

When the corresponding relation of described business module and integrated processing module changes, upgrade the step of described mapping table according to the corresponding relation after changing.

The method of above-mentioned high-density integration chip overhead processing, wherein, described step 1 specifically comprises:

Each expense desired value is initialized as the step of acquiescence desired value.

The method of above-mentioned high-density integration chip overhead processing, wherein, described step 2 specifically comprises:

Each corresponding relation of described mapping table is initialized as meaningless, is used to represent that corresponding passage does not have the step of configuration service.

The method of above-mentioned high-density integration chip overhead processing, wherein, described step 3 specifically comprises:

Step 61 writes corresponding expense desired value buffering area with described expense desired value;

Step 62, in described mapping table, whether inquiry judging need be provided with the passage of business module of expense desired value meaningful to the value of the respective channel of integrated processing module;

If step 63 meaningful, then is set to described expense desired value in the register of described integrated processing module respective channel, if meaningless, then finishes.

The method of above-mentioned high-density integration chip overhead processing wherein, when the incident of the inquiry expense reception value of receiving certain task, specifically may further comprise the steps:

Step 71 judges in described mapping table whether the passage that need inquire about expense reception value is meaningful to the respective channel value of integrated processing module;

If step 72 meaningful, is then obtained expense reception value from the respective channel register of described integrated processing module, if meaningless, then inquiry failure.

The method of above-mentioned high-density integration chip overhead processing wherein, when the corresponding relation between the passage of the service channel of business module and integrated processing module changes, specifically may further comprise the steps:

Step 81 judges whether to delete the business of the service channel of described business module;

If step 82 business of service channel of the described business module of deletion, is meaningless with the service channel of professional certain piece described in the mapping table to the numerical value assignment of integrated processing module respective channel then;

Step 83, if the business of not deleting the service channel of described business module, the information updating of respective channel that then service channel of described business module is mapped to integrated processing module is in mapping table, and from expense desired value buffering area, obtain the desired value of the service channel of described business module, mapping table corresponding relation according to after upgrading is set to described expense desired value in the respective channel register of integrated processing module.

The method of above-mentioned high-density integration chip overhead processing, wherein, when change of mapping relations generation full dose or increment change, the respective channel register of described integrated processing module is provided with the full dose algorithm or the delta algorithm of expense desired value.

The present invention provides a cover total solution for the overhead processing of high-density integration chip.It is simple, not only can solve high-density integration chip overhead processing problem, and can press the fine compatibility of mode of business module processing events with optical transmission SDH equipment.

Description of drawings

Fig. 1 is the corresponding relation figure between the passage of certain service channel of certain business module among the present invention and integrated processing module;

Fig. 2 is the structural representation of middle-high density integrated chip of the present invention;

Fig. 3 is a software processes flow chart of the present invention;

Fig. 4 is the process chart that the expense desired value is set among the present invention;

Fig. 5 is the process chart of inquiry expense reception value among the present invention;

Fig. 6 is the process chart that upgrades mapping table among the present invention.

Embodiment

Below in conjunction with accompanying drawing, the embodiment of the invention is elaborated.

Fig. 2 is the structural representation of middle-high density integrated chip of the present invention.As shown in Figure 2, high-density integration chip highly integrated a plurality of business modules such as A, B, D, E on hardware; Module C is used for focusing on expense desired value and reception value and other operation of each business module.

Because alarm relevant with expense and performance can only obtain from chip, and chip need produce alarm and performance according to the desired value and the reception value of expense, so, the desired value of this expense must be write chip register.Yet the desired value of expense is handled in module C, so must set up the corresponding relation between each business module and the module C earlier, just can carry out the setting of corresponding service module expense desired value.Here, in case when having enabled certain service channel professional of certain business module, these mapping relations have also just been set up; So upgrading this mapping relations table actual is exactly the business relations of safeguarding each business module.

Fig. 3 is the processing method of software processes flow chart high-density integration chip expense of the present invention.As shown in Figure 3, specifically may further comprise the steps:

Step S301 for each business module is provided with mapping table XCMap respectively, is used to preserve each service channel of this business module of some time and the corresponding relation between each passage of module C; And it is initialized as meaningless;

Step S302 needs the desired value of the expense that is provided with/inquires about to distribute corresponding expense desired value buffering area, and each expense desired value is initialized as the acquiescence desired value for system.

On the basis of step S301 and step S302, can carry out the following step:

Step S303 is provided with the expense desired value;

Step S304 safeguards mapping table XCMap; And/or

Step S305, inquiry expense reception value.

To be elaborated with regard to step S303, step S304 and step S305 below.

Fig. 4 is the process chart that the expense desired value is set among the present invention.As shown in Figure 4, specifically may further comprise the steps:

Step S401, certain task is provided with the desired value incident that certain passage is designated as certain expense of Path1 comes then, on the one hand this desired value is write corresponding expense desired value buffering area;

Step S402 inquires about the respective channel Path11 that Path1 is mapped to module C on the other hand in mapping table XCMap, if the value of Path11 is meaningless, expression Path1 does not have configuration service at present, directly returns success;

Step S403, otherwise desired value is set to the register of passage Path11.

Fig. 5 is the process chart of inquiry expense reception value among the present invention.As shown in Figure 5, may further comprise the steps:

Step S501, certain task is inquired about the incident that certain passage is designated as certain expense reception value of Path1 and is come then, judges that the passage that needs to inquire about expense reception value among the XCMap is significant numerical value to the respective channel value of module C;

If step S502 meaningful, then obtains this expense reception value according to mapping table XCMap in the respective channel register of module C;

Step S503 if this business module of the meaningless expression of the value of this passage does not have configuration service at present among the XCMap, returns failure.

Fig. 6 is the process chart that upgrades mapping table among the present invention.When the corresponding relation between the passage of certain service channel of each certain business module and module C changes, carry out the action of this mapping relations table of renewal by carrying out this task that changes mapping relations, as shown in the figure, may further comprise the steps:

Step S601 judges whether to delete the business of the service channel of this business module;

Step S602, if when deleting this service channel professional of this business module, the mapping relations of this service channel are set to meaningless among the XCMap; Otherwise, enter step S603;

Step S603, the channel information that this service channel of this business module is mapped to module C is updated to mapping table XCMap;

Step S604 obtains the desired value of this service channel of this business module from expense desired value buffering area; Then, according to the corresponding relation of XCMap, this numerical value is set to the respective channel register of module C.

In addition, when mapping relations generation full dose changes or increment when changing, can generalized time and efficient two aspect factors, the respective channel register that is chosen in module C is provided with the full dose algorithm or the delta algorithm of expense desired value.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; being familiar with those of ordinary skill in the art ought can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (9)

1. the method for a high-density integration chip overhead processing, integrated processing module and a plurality of business module are set on high-density integration chip, described integrated processing module is connected respectively with each business module, described business module processing expenditure transmission value, described integrated processing module processing expenditure desired value and reception value, it is characterized in that, may further comprise the steps:

Step 1 is provided with expense desired value buffering area, is used for the expense desired value that store tasks need be handled;

Step 2 is provided with mapping table, is used for preserving in real time the corresponding relation between each passage of each service channel of each business module and integrated processing module;

Step 3, when receive certain task the incident of expense desired value is set the time, described expense desired value is write the expense desired value buffering area of described correspondence, and described expense desired value is set in the respective channel register of integrated processing module according to described mapping table.

2. the method for high-density integration chip overhead processing according to claim 1 is characterized in that, also comprises:

Described expense reception value is kept in the register of integrated processing module, when the incident of the inquiry expense reception value of receiving certain task, according to described mapping table, obtains the step of described expense reception value from the respective channel register of described integrated processing module.

3. the method for high-density integration chip overhead processing according to claim 2 is characterized in that, also comprises:

When the corresponding relation between each passage of each service channel of described each business module and integrated processing module changes, upgrade the step of described mapping table according to the corresponding relation after changing.

4. the method for high-density integration chip overhead processing according to claim 3 is characterized in that, described step 1 specifically comprises:

Each expense desired value is initialized as the step of acquiescence desired value.

5. the method for high-density integration chip overhead processing according to claim 4 is characterized in that, described step 2 specifically comprises:

Each corresponding relation of described mapping table is initialized as meaningless, is used to represent that corresponding passage does not have the step of configuration service.

6. the method for high-density integration chip overhead processing according to claim 5 is characterized in that, described step 3 specifically comprises:

Step 61 writes corresponding expense desired value buffering area with described expense desired value;

Step 62, in described mapping table, whether inquiry judging need be provided with the passage of business module of expense desired value meaningful to the value of the respective channel of integrated processing module;

If step 63 meaningful, then is set to described expense desired value in the register of described integrated processing module respective channel, if meaningless, then return success is set.

7. the method for high-density integration chip overhead processing according to claim 5 is characterized in that, when the incident of the inquiry expense reception value of receiving certain task, specifically may further comprise the steps:

Step 71 judges in described mapping table whether the passage that need inquire about expense reception value is meaningful to the respective channel value of integrated processing module;

If step 72 meaningful, is then obtained expense reception value from the respective channel register of described integrated processing module, if meaningless, then inquiry failure.

8. the method for high-density integration chip overhead processing according to claim 5, it is characterized in that, when the corresponding relation between the passage of the service channel of business module and integrated processing module changes, upgrade described mapping table according to the corresponding relation after changing, specifically may further comprise the steps:

Step 81 judges whether to delete the business of the service channel of described business module;

If step 82 business of service channel of the described business module of deletion, is meaningless with the service channel of business module described in the mapping table to the numerical value assignment of integrated processing module respective channel then;

Step 83, if the business of not deleting the service channel of described business module, the information updating of respective channel that then service channel of described business module is mapped to integrated processing module is in mapping table, and from expense desired value buffering area, obtain the desired value of the service channel of described business module, mapping table corresponding relation according to after upgrading is set to described expense desired value in the respective channel register of integrated processing module.

9. the method for high-density integration chip overhead processing according to claim 1, it is characterized in that, when change of mapping relations generation full dose or increment change, the respective channel register of described integrated processing module is provided with the full dose algorithm or the delta algorithm of expense desired value.

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