CN101860944B - Method and device for controlling energy efficiency of communication system, service processing unit and service processing system - Google Patents

Abstract

The embodiment of the invention relates to the communication field, in particular to a method and a device for controlling energy efficiency of a communication system, a service processing unit and a service processing system. The energy efficiency control method of the communication system provided by the embodiment of the invention comprises the following steps: monitoring the operation of the service processing unit in the communication system; collecting the operation information of the service processing unit, performing forecast process based on the collected operation information; determining the follow-up power consumption of the service processing unit; and adjusting the service processing unit according to the follow-up power consumption of the service processing unit. The technical scheme provided by the embodiment of the invention can lead each service processing unit to consume lower power at small service volume, thus achieving better energy-conservation effect.

Description

Efficiency control method, device and Service Processing Unit and the system of communication system

Technical field

The embodiment of the invention relates to the communications field, especially a kind of efficiency control method, device and Service Processing Unit and system of communication system.

Background technology

In the communication network, business is to insert by the edge access device, and then is pooled to the communication service processing center and handles by transmitting network.A kind of typical communication network is the wireless data service network, the wireless data service network comprises: RNC/BSC (radio network controller/base stationcontroller, radio network controller/base station controller) equipment, transmission network, SGSN (ServingGPRS Support Node, Serving GPRS Support Node) equipment etc., wherein RNC/BSC belongs to the edge access device, SGSN belongs to the equipment of the core network that 2G/3G shares, SGSN is mainly used in GPRS (General Packet Radio Service, GPRS) business generally is arranged in the core machine room of communication network.In the wireless data service network, each cellphone subscriber's data service inserts the wireless data service network by a plurality of RNC/BSC, converges on the SGSN through transmission network more afterwards and handles.SGSN adopts the form of communication cabinet to realize that comprise a plurality of plates in the machine frame of each communication cabinet, each plate can be considered as a processing unit usually, and a plurality of processing units have just been formed the resource pool of SGSN; SGSN adopts the mode of resource pool to carry out the load sharing management, gives each processing unit in the resource pool with sharing of load.In the prior art, communication system is generally by maximum traffic peak demand configuration process unit, and in the actual motion traffic carrying capacity far below peak level, therefore, when little traffic carrying capacity, because all machine frame, frame, Service Processing Units all power on or with the normal mode of operation operation, the professional ability that provides in the resource pool has caused the significant wastage of the energy much larger than the actual demand of network.

Summary of the invention

The embodiment of the invention provides a kind of efficiency control method and device of communication system on the one hand, a kind of Service Processing Unit and communication system that realizes efficiency control is provided on the other hand, power consumption and the actual motion change in information of Service Processing Unit are adapted, when little traffic carrying capacity, can make Service Processing Unit be in lower power consumption, thereby reach energy-saving effect preferably.

The efficiency control method of the communication system that the embodiment of the invention provides comprises:

The operation of Service Processing Unit in the monitor and communication system, and the operation information of capturing service processing unit;

Operation information based on gathering carries out prediction processing, determines the follow-up power consumption of Service Processing Unit;

According to the follow-up power consumption of the Service Processing Unit of determining, adjust Service Processing Unit.

The efficiency control device of the communication system that the embodiment of the invention provides comprises:

Monitoring modular links to each other with Service Processing Unit by monitoring bus, is used for the operation of monitor and communication system Service Processing Unit, and the operation information of capturing service processing unit;

The efficiency module is used for the operation information based on described monitoring modular collection, carries out prediction processing, determines the follow-up power consumption of Service Processing Unit;

Adjusting module links to each other with Service Processing Unit by control bus, is used for the follow-up power consumption according to the definite Service Processing Unit of described efficiency module, adjusts Service Processing Unit.

The Service Processing Unit of the realization efficiency control that the embodiment of the invention provides comprises:

Service Processing Module and above-mentioned efficiency control device, described efficiency control device links to each other with described Service Processing Module by bus;

Described Service Processing Module is used for linking to each other with subnet equipment by transmission network, handles the business that subnet equipment sends.

The communication system of the realization efficiency control that the embodiment of the invention provides comprises:

A plurality of Service Processing Units and above-mentioned efficiency control device, described efficiency control device links to each other with described Service Processing Unit by bus;

Described Service Processing Unit is used for linking to each other with subnet equipment by transmission network, handles the business that subnet equipment sends.

By above technical scheme as can be known, in the embodiment of the invention, by gathering the operation information of each Service Processing Unit, carry out prediction processing, dynamically determine the follow-up power consumption of each Service Processing Unit, and adjust each Service Processing Unit, the power consumption of each Service Processing Unit and actual motion change in information are adapted, therefore, the technical scheme that the embodiment of the invention provides, can when little traffic carrying capacity, make each Service Processing Unit be in lower power consumption, thereby reach energy-saving effect preferably.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, the accompanying drawing of required use is done to introduce simply in will describing embodiment below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the efficiency control method flow chart of the communication system of the embodiment of the invention one;

Fig. 2 is the efficiency control device structure chart of the communication system of the embodiment of the invention two;

Fig. 3 is the Service Processing Unit structure chart of the realization efficiency control of the embodiment of the invention three;

Fig. 4 is the communication system schematic diagram of the realization efficiency control of the embodiment of the invention four;

Fig. 5 is the communication system schematic diagram of another realization efficiency control of the embodiment of the invention four.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

Embodiment one

As shown in Figure 1, the embodiment of the invention provides a kind of efficiency control method of communication system, comprises the steps:

Step 101, the operation of each Service Processing Unit in the monitor and communication system, and gather the operation information of each Service Processing Unit; Wherein, operation information can be any or several combination in power consumption situation, mode of operation and the traffic load.

In step 101, power consumption situation and traffic load can repeat no more here by the prior art collection.

For the Service Processing Unit in the communication system, different mode of operations can be set, the corresponding different power consumption of different pattern is to realize different disposal abilities, for example, energy saver mode 1 (power consumption of normal mode of operation 30%), energy saver mode 2 (power consumption of normal mode of operation 50%), energy saver mode 3 (power consumption of normal mode of operation 80%), normal mode of operation etc.In addition, except Service Processing Unit, the power module in the communication system, blower module supporting member also can define multiple mode of operation; For example, the switch of a plurality of power subsystems in the power module, the corresponding power subsystem of opening varying number of the different working modes of power module; The switch of a plurality of fans and the adjusting of rotating speed grade etc. in the blower module, the corresponding rotating speed of opening the fan of varying number or the different brackets of fan being set of the different working modes of blower module.

The operation information of gathering each Service Processing Unit can be the process of one-period, at set intervals the operation information of each business unit is once gathered, the cycle of gathering can be according to the actual conditions setting, for example, be that operation information changes when professional faster when what carry in the communication system, can adopt short collection period, otherwise, when carry in the communication system to be that operation information changes slower when professional, prolongation collection period that can be suitable.

Step 102, the operation information based on gathering carries out prediction processing, determines the follow-up power consumption of each Service Processing Unit.

In step 102, carry out prediction processing based on the operation information of gathering, the follow-up power consumption of determining each Service Processing Unit can be: according to the operation information of each Service Processing Unit, adopt fitting algorithm to set up moving model, utilize the moving model of foundation and the operation information of current each Service Processing Unit to carry out prediction processing then, determine the follow-up power consumption of each Service Processing Unit; Perhaps, according to the operation information of each Service Processing Unit and the moving model of having set up, adopt fitting algorithm that the moving model of having set up is revised, utilize the moving model of correction and the operation information of current each Service Processing Unit to carry out prediction processing then, determine the follow-up power consumption of each Service Processing Unit, here, the moving model of having set up can be the initial launch model of configuration or the moving model of setting up according to the operation information that history is gathered.Wherein, can periodically handle the operation information of gathering (unit in cycle can be hour, day, week, month etc.) to set up or to revise moving model, for example, when each collection period finishes, utilize the historical operation information of gathering and the operation information of current collection, the operation information that these are discrete adopts fitting algorithm to form the moving model curve (being the moving model function of time-operation information) that distributes by the time; Afterwards, can predict the follow-up operation information of each Service Processing Unit based on the moving model of setting up or revise, because there is corresponding relation in operation information (power consumption situation, mode of operation and traffic load) with power consumption, the operation information that different power consumptions is corresponding different, therefore, the follow-up operation information of having determined each Service Processing Unit has namely been determined the follow-up power consumption of each Service Processing Unit, and the follow-up power consumption here can be the power consumption that communication system needs after the setting-up time length.

Illustrate the mode of predicting the follow-up operation information of each Service Processing Unit based on the moving model of setting up or revise below: for general business, can be to the differentiate of moving model function, and the operation information increment that utilizes setting-up time length to draw to need (can be on the occasion of or negative value), then, determine the follow-up operation information of communication system needs after the setting-up time length according to current operation information and operation information increment; Perhaps, for general business, can directly utilize the moving model curve, determine time point T after the setting-up time length in the value of the operation information of moving model curve correspondence, the i.e. value of follow-up operation information; Perhaps, further for periodic traffic, the moving model function of foundation is periodic function, can directly utilize moving model curve or moving model function, determine the value of the operation information of the time point T correspondence after the setting-up time length, i.e. the value of follow-up operation information.Because there is corresponding relation in operation information (power consumption situation, mode of operation and traffic load) with power consumption, the operation information that different power consumption is corresponding different, the follow-up operation information of therefore having determined each Service Processing Unit has namely been determined the follow-up power consumption of each Service Processing Unit.

Step 103 according to the follow-up power consumption of each Service Processing Unit of determining, is adjusted each Service Processing Unit consumption, and the power consumption of each Service Processing Unit and the follow-up power consumption of determining are adapted.

In step 103, adjust each Service Processing Unit and can be: directly adjust each Service Processing Unit; Perhaps, according to the adjustment strategy that arranges each Service Processing Unit is adjusted.The adjustment strategy here can be: judge according to the delta threshold that arranges, if the increment of follow-up power consumption and current power consumption (is both differences, can be on the occasion of or negative value) absolute value then adjust each Service Processing Unit greater than delta threshold, otherwise do not adjust each Service Processing Unit; Or, judge according to the threshold window that arranges, threshold window comprises restriction window threshold value and last restriction window threshold value down, the value of current power consumption is between down between restriction window threshold value and the last restriction window threshold value, if follow-up power consumption is greater than last restriction window threshold value or less than following restriction window threshold value, then adjust each Service Processing Unit, otherwise do not adjust each Service Processing Unit.Adjust strategy owing to be provided with, compare with current power consumption to change when follow-up power consumption and hour then each business unit is not adjusted, only exceeding certain limit at the power consumption increment just adjusts each business unit, thereby reduced the frequency of adjusting, do not need to have determined that the follow-up power consumption of each Service Processing Unit all adjusts at every turn, make system be in a more stable state, and also require the expenditure of energy owing to adjust Service Processing Unit itself, too frequently Service Processing Unit is adjusted the raising that also can cause power consumption, so, adjust arranging of strategy and can further reduce power consumption, improve system energy efficiency.In order to guarantee QoS, when determining that according to the adjustment strategy that arranges needs are adjusted each Service Processing Unit, described adjustment strategy may further include arrange burst threshold (arrange burst threshold greater than the absolute value of the difference of last restriction window threshold value or burst threshold and current power consumption greater than delta threshold) judge professional change whether unusual, when follow-up power consumption then thinks that service exception changes during greater than burst threshold, otherwise think professional normal fluctuation; Follow-up, can adjust accordingly according to professional situation of change, for instance, for professional normal fluctuation situation, can directly adjust each Service Processing Unit according to follow-up power consumption, (for example lasting maximum considerably beyond the window comparator upper limit of professional increment in the short time) then can disposablely switch to normal mode of operation to Service Processing Units all in the resource pool when increasing for service exception, recovers maximum traffic handing capacity.

In addition, because the hardware constraints of Service Processing Unit self, its disposal ability has certain scope, therefore, can before adjusting each Service Processing Unit, judge further whether the follow-up power consumption of each Service Processing Unit of determining has exceeded the limited processing ability of Service Processing Unit, if follow-up power consumption does not exceed the capabilities limits of Service Processing Unit, then adjust each Service Processing Unit, otherwise, each Service Processing Unit only in the capabilities limits scope of Service Processing Unit, adjusted.For example, the power consumption of the disposal ability upper limit correspondence of one Service Processing Unit is 100 units, the current power consumption of this Service Processing Unit is 90 units, and the follow-up power consumption of this Service Processing Unit of determining is 110, because follow-up power consumption 110 has exceeded the limited processing ability 100 of Service Processing Unit, therefore can not adjust power consumption to 110 unit of this Service Processing Unit, the power consumption of this Service Processing Unit can be adjusted to 100 units; When being lower than the power consumption of disposal ability lower limit correspondence of this Service Processing Unit for the follow-up power consumption of a Service Processing Unit of determining, then can directly closing this Service Processing Unit or make this Service Processing Unit enter park mode.

In step 103, when specifically adjusting each Service Processing Unit, can adopt different adjustment modes, for example: directly the power consumption of each Service Processing Unit is adjusted to the follow-up power consumption of each definite Service Processing Unit, actual treatment ability that specifically can be by adjusting each Service Processing Unit or ON/OFF partial service processing unit are realized the adjustment to each Service Processing Unit power consumption; Perhaps, according to the mode of operation of setting, the mode of operation of each Service Processing Unit is adjusted to the mode of operation of definite follow-up power consumption correspondence, for example, the power consumption of energy saver mode 1 corresponding normal mode of operation 0%-30%, the power consumption of energy saver mode 2 corresponding normal mode of operation 30%-50%, the power consumption of energy saver mode 3 corresponding normal mode of operation 50%-80%, the power consumption that normal mode of operation is corresponding whole, when the follow-up power consumption of a Service Processing Unit of determining is 70% power consumption of normal mode of operation, then this Service Processing Unit is adjusted to energy saver mode 3, other similar repeating no more.In the said process, the mode of operation of the quantity of the Service Processing Unit of the actual treatment ability of adjustment Service Processing Unit, adjustment real work or adjustment Service Processing Unit, all be that each Service Processing Unit is carried out the concrete mode that power consumption is adjusted, when reality is adjusted each Service Processing Unit, can adopt one or more combination in three kinds of concrete modes to realize adjustment to each Service Processing Unit flexibly.

The embodiment of the invention, by gathering the operation information of each Service Processing Unit, carry out prediction processing, dynamically determine the follow-up power consumption of each Service Processing Unit, and adjust the power consumption of each Service Processing Unit, the power consumption of each Service Processing Unit and the follow-up power consumption of determining are adapted, power consumption and the actual motion change in information of each Service Processing Unit are adapted, when little traffic carrying capacity, can make each Service Processing Unit be in lower power consumption, thereby reach energy-saving effect preferably.

Embodiment two

As shown in Figure 2, the embodiment of the invention provides a kind of efficiency control device of communication system, comprising:

Monitoring modular 21 links to each other with each Service Processing Unit by monitoring bus, is used for the operation of each Service Processing Unit of monitor and communication system, and gathers the operation information of each Service Processing Unit;

Efficiency module 22 is used for the operation information based on monitoring modular 21 collections, carries out prediction processing, determines the follow-up power consumption of each Service Processing Unit;

Adjusting module 23 links to each other with each Service Processing Unit by control bus, for the follow-up power consumption of each Service Processing Unit of determining according to efficiency module 22, adjusts each Service Processing Unit, and the power consumption of each Service Processing Unit and the follow-up power consumption of determining are adapted.

Further, monitoring modular 21 can comprise: timing unit 211 is used for starting collecting unit 212 according to certain cycle and carries out the collection of operation information; Collecting unit 212 is used for the operation of each Service Processing Unit of monitor and communication system, and periodically gathers the operation information of each Service Processing Unit according to the indication of timing unit 211.

Further, efficiency module 22 can comprise: set up unit 221, be used for the operation information based on each Service Processing Unit of monitoring modular 21 collections, adopt fitting algorithm to set up or revise moving model; Predicting unit is used for the operation information that current each Service Processing Unit of unit 221 foundation or the moving model of revising and monitoring modular 21 collections is set up in utilization, carries out prediction processing, determines the follow-up power consumption of each Service Processing Unit.

Further, adjusting module 23 can comprise: policy unit 231, be used for judging according to the adjustment strategy that arranges, when the follow-up power consumption of each Service Processing Unit that efficiency module 22 is determined is being adjusted within the tactful adjusting range that allows, then indicate adjustment unit 232 to adjust each Service Processing Unit, otherwise do not indicate adjustment unit 232 to adjust; Adjustment unit 232 is used for adjusting each Service Processing Unit according to the indication of policy unit 231, and the power consumption of each Service Processing Unit and the follow-up power consumption of determining are adapted.Wherein, the adjustment strategy that policy unit 231 arranges is the related content in the reference example one specifically, repeats no more here; The related content of the concrete mode that adjustment unit 232 is adjusted each Service Processing Unit in also can reference example one repeats no more here.

Optionally, above-mentioned efficiency control device can also comprise: reporting module 24, be used for linking to each other with gateway device or reporting interface to link to each other with upper layer device by other by network management interface, any in the adjustment strategy of the operation information that monitoring modular 21 is gathered, the follow-up power consumption of each Service Processing Unit that efficiency module 22 is determined, the moving model of setting up unit 221 foundation, policy unit 231 uses or a plurality of combinations report to gateway device or other upper layer devices.

The embodiment of the invention, by gathering the operation information of each Service Processing Unit, carry out prediction processing, dynamically determine the follow-up power consumption of each Service Processing Unit, and adjust the power consumption of each Service Processing Unit, the power consumption of each Service Processing Unit and the follow-up power consumption of determining are adapted, power consumption and the actual motion change in information of each Service Processing Unit are adapted, when little traffic carrying capacity, can make each Service Processing Unit be in lower power consumption, thereby reach energy-saving effect preferably.

Embodiment three

As shown in Figure 3, the embodiment of the invention provides a kind of Service Processing Unit that can realize efficiency control, comprising:

Service Processing Module 31 is used for linking to each other with subnet equipment by transmission network, handles the business that subnet equipment sends;

Efficiency control module 32 is used for linking to each other with Service Processing Module 31 by bus, monitors the operation of Service Processing Module 31, and gathers the operation information of each Service Processing Unit; Operation information based on gathering carries out prediction processing, determines the follow-up power consumption of Service Processing Module 31; According to the follow-up power consumption of the Service Processing Module of determining 31, adjust Service Processing Module 31, the power consumption of Service Processing Module 31 and the follow-up power consumption of determining are adapted.

Wherein, the division of the efficiency control device that the concrete division of efficiency control module 32 can reference example two provides, what the efficiency control device that provides with embodiment two was different is, the efficiency control module 32 of present embodiment is arranged on Service Processing Unit inside, the efficiency control of the Service Processing Unit at these 32 responsible places of efficiency control module.

The embodiment of the invention, operation information by the Service Processing Module in the capturing service processing unit, carry out prediction processing, dynamically determine the follow-up power consumption of Service Processing Module, and adjust the power consumption of Service Processing Module, the power consumption of Service Processing Module and the follow-up power consumption of determining are adapted, thereby the power consumption of Service Processing Unit and actual motion change in information are adapted, when little traffic carrying capacity, can make Service Processing Unit be in lower power consumption, thereby reach energy-saving effect preferably.

Embodiment four

As shown in Figure 4, the embodiment of the invention provides a kind of communication system that can realize efficiency control, comprising:

A plurality of Service Processing Units 41 are used for linking to each other with subnet 43 by transmission network, handle the business that subnet 43 sends;

Efficiency control device 42 is used for linking to each other with a plurality of Service Processing Units 41 by bus, the operation of each Service Processing Unit 41 in the monitor and communication system, and gather the operation information of each Service Processing Unit 41; Operation information based on gathering carries out prediction processing, determines the follow-up power consumption of each Service Processing Unit 41; According to the follow-up power consumption of each Service Processing Unit 41 of determining, adjust each Service Processing Unit 41, the power consumption of each Service Processing Unit 41 and the follow-up power consumption of determining are adapted.

Wherein, efficiency control device 42 can be the efficiency control device of the communication system that provides of embodiment two.Service Processing Unit 41 can be Service Processing Unit of the prior art, or the Service Processing Unit that provides among the embodiment three; When Service Processing Unit 41 is the Service Processing Unit that provides among the embodiment three, with reference to figure 5, Service Processing Unit 41 further comprises Service Processing Module 411 and efficiency control module 412, at this moment, control the efficiency control module 412 of the efficiency control device 42 of a plurality of Service Processing Units 41 and Service Processing Unit 41 self and can form classification efficiency control system, cooperation mutually between efficiency control device 42 and the efficiency control module 412, for example, efficiency control device 42 is gathered the operation information of each Service Processing Unit 41, and determine that based on the operation information of gathering which Business Processing need carry out the power consumption adjustment, efficiency control device 42 notices need the Service Processing Unit of power consumption adjustment then, need efficiency control module 412 in the Service Processing Unit that power consumption adjusts to gather the operation information of place Service Processing Units, and determine the follow-up power consumption of place Service Processing Unit based on the operation information of gathering, adjust the place Service Processing Unit according to this follow-up power consumption.

The embodiment of the invention, by gathering the operation information of each Service Processing Unit, carry out prediction processing, dynamically determine the follow-up power consumption of each Service Processing Unit, and adjust the power consumption of each Service Processing Unit, the power consumption of each Service Processing Unit and the follow-up power consumption of determining are adapted, power consumption and the actual motion change in information of each Service Processing Unit are adapted, when little traffic carrying capacity, can make each Service Processing Unit be in lower power consumption, thereby reach energy-saving effect preferably.

In various embodiments of the present invention, because operation information can be any or several combinations in power consumption situation, mode of operation and the traffic load, so, the moving model of setting up can be power consumption and time relation model, perhaps traffic load and time relation model perhaps can be set up power consumption and time relation model and traffic load and time relation model simultaneously.When having set up a plurality of moving model, for example power consumption and time relation model and traffic load and time relation model, can carry out prediction processing according to a plurality of moving models respectively, determine the follow-up power consumption of each moving model corresponding service processing unit, subsequent power with a plurality of moving model correspondences averages then, utilizes mean value as final follow-up power consumption.

One of ordinary skill in the art will appreciate that all or part of flow process that realizes in above-described embodiment method, be to instruct relevant hardware to finish by computer program, described program can be stored in the computer read/write memory medium, this program can comprise the flow process as the embodiment of above-mentioned each side method when carrying out.Wherein, described storage medium can be magnetic disc, CD, read-only storage memory body (Read-Only Memory, ROM) or at random store memory body (Random Access Memory, RAM) etc.

In a word, the above is preferred embodiment of the present invention only, is not for limiting protection scope of the present invention.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (7)

1. the efficiency control method of a communication system is characterized in that, comprising:

The operation of Service Processing Unit in the monitor and communication system, and the operation information of capturing service processing unit;

Operation information based on gathering carries out prediction processing, determines the follow-up power consumption of Service Processing Unit;

According to the follow-up power consumption of the Service Processing Unit of determining, adjust Service Processing Unit;

Described operation information based on collection carries out prediction processing, determines that the follow-up power consumption of Service Processing Unit comprises:

According to the operation information of the Service Processing Unit of gathering, adopt fitting algorithm to set up or revise moving model;

Utilize moving model and the current operation information of Service Processing Unit setting up or revise, carry out prediction processing, determine the follow-up power consumption of Service Processing Unit;

Wherein, described operation information is one or more the combination in power consumption, mode of operation and the traffic load;

The follow-up power consumption of the Service Processing Unit that described basis is determined is adjusted before the Service Processing Unit, and described method also comprises:

Judge whether Service Processing Unit is adjusted according to the adjustment strategy that arranges;

Described adjustment strategy is: if the absolute value of the increment of follow-up power consumption and current power consumption is then adjusted Service Processing Unit greater than delta threshold, otherwise do not adjust Service Processing Unit; Perhaps, if follow-up power consumption is greater than last restriction window threshold value or less than following restriction window threshold value, then Service Processing Unit is adjusted, otherwise do not adjust Service Processing Unit, wherein, the described restriction window threshold value that goes up is greater than described restriction window threshold value down, and current power consumption is between down between restriction window threshold value and the last restriction window threshold value; Perhaps, when follow-up power consumption during greater than burst threshold, then adjust Service Processing Unit to maximum traffic handing capacity.

2. the method for claim 1 is characterized in that, moving model and the current operation information of Service Processing Unit that described utilization is set up or revised carry out prediction processing, determine that the follow-up power consumption of Service Processing Unit comprises:

Function to the moving model correspondence setting up or revise carries out Derivative Operation, and utilizes the operation information increment that setting-up time length draws to be needed; According to current operation information and operation information increment, determine the follow-up power consumption that communication system needs after the setting-up time length; Perhaps,

The curve of the moving model correspondence of utilize setting up or revising obtains the value of the time point corresponding operation information on curve after the setting-up time length, determines the follow-up power consumption of communication system needs after the setting-up time length according to the value of the operation information of correspondence; Perhaps

When the function of the moving model correspondence of setting up or revising is periodic function, utilize curve or the function of moving model correspondence, obtain the value of the operation information of the time point correspondence after the setting-up time length, determine the follow-up power consumption of communication system needs after the setting-up time length according to the value of the operation information of correspondence.

3. method as claimed in claim 1 or 2 is characterized in that, the follow-up power consumption of the Service Processing Unit that described basis is determined is adjusted Service Processing Unit and comprised:

Directly the power consumption of Service Processing Unit is adjusted to the follow-up power consumption of definite Service Processing Unit; Perhaps, the mode of operation of Service Processing Unit is adjusted to the mode of operation of definite follow-up power consumption correspondence.

4. the efficiency control device of a communication system is characterized in that, comprising:

Monitoring modular links to each other with Service Processing Unit by monitoring bus, is used for the operation of monitor and communication system Service Processing Unit, and the operation information of capturing service processing unit;

The efficiency module is used for the operation information based on described monitoring modular collection, carries out prediction processing, determines the follow-up power consumption of Service Processing Unit;

Adjusting module links to each other with Service Processing Unit by control bus, is used for the follow-up power consumption according to the definite Service Processing Unit of described efficiency module, adjusts Service Processing Unit;

Described efficiency module comprises:

Set up the unit, be used for the operation information based on the Service Processing Unit of described monitoring modular collection, adopt fitting algorithm to set up or revise moving model;

Predicting unit is used for utilizing the described current operation information of Service Processing Unit that unit foundation or the moving model of revising and described monitoring modular are gathered of setting up, and carries out prediction processing, determines the follow-up power consumption of Service Processing Unit;

Wherein, described operation information is one or more the combination in power consumption, mode of operation and the traffic load;

Described adjusting module comprises:

Policy unit, be used for judging according to the adjustment strategy that arranges, when the follow-up power consumption of the Service Processing Unit that described efficiency module is determined is being adjusted within the tactful adjusting range that allows, then indicate adjustment unit to adjust Service Processing Unit, otherwise do not indicate adjustment unit adjustment;

Adjustment unit is used for adjusting Service Processing Unit according to the indication of described policy unit;

Described adjustment strategy is: if the absolute value of the increment of follow-up power consumption and current power consumption is then adjusted Service Processing Unit greater than delta threshold, otherwise do not adjust Service Processing Unit; Perhaps, if follow-up power consumption is greater than last restriction window threshold value or less than following restriction window threshold value, then Service Processing Unit is adjusted, otherwise do not adjust Service Processing Unit, wherein, the described restriction window threshold value that goes up is greater than described restriction window threshold value down, and current power consumption is between down between restriction window threshold value and the last restriction window threshold value; Perhaps, when follow-up power consumption during greater than burst threshold, then adjust Service Processing Unit to maximum traffic handing capacity.

5. device as claimed in claim 4 is characterized in that, described monitoring modular comprises:

Timing unit is used for starting collecting unit according to certain cycle and carries out the collection of operation information;

Collecting unit is used for the operation of monitor and communication system Service Processing Unit, and according to the operation information of the periodic capturing service processing unit of the indication of described timing unit.

6. a Service Processing Unit of realizing efficiency control is characterized in that, comprising: Service Processing Module and claim 4 or 5 each described efficiency control device, and described efficiency control device links to each other with described Service Processing Module by bus;

Described Service Processing Module is used for linking to each other with subnet equipment by transmission network, handles the business that subnet equipment sends.

7. a communication system that realizes efficiency control is characterized in that, comprising: a plurality of Service Processing Units and claim 4 or 5 each described efficiency control device, and described efficiency control device links to each other with described Service Processing Unit by bus;

Described Service Processing Unit is used for linking to each other with subnet equipment by transmission network, handles the business that subnet equipment sends.

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