CN101860944A - 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

Energy efficiency control method and device of communication system, service processing unit and system

Technical Field

The embodiment of the invention relates to the field of communication, in particular to an energy efficiency control method and device of a communication system, a service processing unit and a service processing system.

Background

In the communication network, the service is accessed through the edge access device and then collected to the communication service processing center for processing through the transmission network. One exemplary communication network is a wireless data services network, which includes: an RNC/BSC (Radio network controller/base station controller) device, a transmission network, an SGSN (Serving GPRS Support Node) device, and the like, where the RNC/BSC belongs to an edge access device, the SGSN belongs to a 2G/3G shared core network device, and the SGSN is mainly used for GPRS (General Packet Radio Service) services and is generally located in a core machine room of the communication network. In the wireless data service network, the data service of each mobile phone user is accessed to the wireless data service network through a plurality of RNC/BSC, and then is converged to SGSN for processing through a transmission network. The SGSN is usually implemented in the form of a communication cabinet, a frame of each communication cabinet includes a plurality of plugboards, each plugboard can be regarded as a processing unit, and a plurality of processing units form a resource pool of the SGSN; the SGSN adopts a resource pool mode to carry out load sharing management and distributes the load to each processing unit in the resource pool. In the prior art, a communication system generally configures a processing unit according to the maximum service peak value requirement, and the service volume in actual operation is much lower than the peak value level, so that when the service volume is small, because all machine frames, racks and service processing units are all powered on or operate in a normal working mode, the service capacity provided in a resource pool is much higher than the actual requirement of a network, and great waste of energy is caused.

Disclosure of Invention

Embodiments of the present invention provide a method and an apparatus for controlling energy efficiency of a communication system, and provide a service processing unit and a communication system for implementing energy efficiency control, so that power consumption of the service processing unit is adapted to changes in actual operation information, and the service processing unit can be in lower power consumption when there is a small amount of traffic, thereby achieving a better energy saving effect.

The energy efficiency control method for the communication system provided by the embodiment of the invention comprises the following steps:

monitoring the operation of a service processing unit in a communication system, and collecting the operation information of the service processing unit;

performing prediction processing based on the collected operation information, and determining the subsequent power consumption of the service processing unit;

and adjusting the service processing unit according to the determined subsequent power consumption of the service processing unit.

The energy efficiency control device of a communication system provided by the embodiment of the invention comprises:

the monitoring module is connected with the service processing unit through a monitoring bus and used for monitoring the operation of the service processing unit in the communication system and acquiring the operation information of the service processing unit;

the energy efficiency module is used for carrying out prediction processing based on the operation information acquired by the monitoring module and determining the subsequent power consumption of the service processing unit;

and the adjusting module is connected with the service processing unit through a control bus and used for adjusting the service processing unit according to the subsequent power consumption of the service processing unit determined by the energy efficiency module.

The service processing unit for implementing energy efficiency control provided by the embodiment of the invention comprises:

the energy efficiency control device is connected with the service processing module through a bus;

and the service processing module is used for connecting with the subnet equipment through a transmission network and processing the service sent by the subnet equipment.

The communication system for realizing energy efficiency control provided by the embodiment of the invention comprises:

the energy efficiency control device is connected with the service processing units through buses;

and the service processing unit is used for connecting with the subnet equipment through a transmission network and processing the service sent by the subnet equipment.

According to the technical scheme, the operation information of each service processing unit is collected, prediction processing is carried out, the subsequent power consumption of each service processing unit is dynamically determined, and each service processing unit is adjusted, so that the power consumption of each service processing unit is adaptive to the change of the actual operation information.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a flowchart of an energy efficiency control method of a communication system according to a first embodiment of the present invention;

fig. 2 is a structural diagram of an energy efficiency control apparatus of a communication system according to a second embodiment of the present invention;

fig. 3 is a structural diagram of a service processing unit for implementing energy efficiency control according to a third embodiment of the present invention;

fig. 4 is a schematic diagram of a communication system implementing energy efficiency control according to a fourth embodiment of the present invention;

fig. 5 is a schematic diagram of another communication system for implementing energy efficiency control according to a fourth embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in fig. 1, an embodiment of the present invention provides an energy efficiency control method for a communication system, including the following steps:

step 101, monitoring the operation of each service processing unit in a communication system, and collecting the operation information of each service processing unit; the operation information may be any one or a combination of several of a power consumption status, an operation mode and a traffic load.

In step 101, the power consumption status and the traffic load may be collected by the prior art, which is not described herein again.

For the service processing unit in the communication system, different operation modes may be set, and the different operation modes correspond to different power consumptions to implement different processing capabilities, for example, energy saving mode 1 (power consumption of 30% in normal operation mode), energy saving mode 2 (power consumption of 50% in normal operation mode), energy saving mode 3 (power consumption of 80% in normal operation mode), normal operation mode, and the like. In addition, besides the service processing unit, a plurality of working modes can be defined by the supporting components such as a power module, a fan module and the like in the communication system; for example, different working modes of the power supply module corresponding to the switches of the plurality of power supply units in the power supply module turn on different numbers of power supply units; the fan module comprises a plurality of fans, a fan module, a fan control module and a fan control module, wherein the fans are arranged in the fan module, the fan control module is used for controlling the opening and closing of the fans, the rotating speed grade adjustment and the like, and different working modes of the fan module correspondingly start different numbers of fans or set different grades of rotating speeds of the fans.

The collection of the operation information of each service processing unit may be a periodic process, the operation information of each service processing unit is collected once at intervals, and the collection period may be set according to actual conditions, for example, when a service with fast operation information change is carried in the communication system, a shorter collection period may be adopted, whereas when a service with slow operation information change is carried in the communication system, the collection period may be appropriately prolonged.

And 102, performing prediction processing based on the acquired operation information, and determining the subsequent power consumption of each service processing unit.

In step 102, performing prediction processing based on the collected operation information, and determining that the subsequent power consumption of each service processing unit may be: establishing an operation model by adopting a fitting algorithm according to the operation information of each service processing unit, and then performing prediction processing by using the established operation model and the operation information of each current service processing unit to determine the subsequent power consumption of each service processing unit; or, according to the operation information of each service processing unit and the established operation model, correcting the established operation model by adopting a fitting algorithm, then performing prediction processing by using the corrected operation model and the operation information of each current service processing unit, and determining the subsequent power consumption of each service processing unit, wherein the established operation model can be a configured initial operation model or an operation model established according to historically collected operation information. The collected operation information may be periodically processed (the unit of the period may be hour, day, week, month, etc.) to establish or modify the operation model, for example, at the end of each collection period, the operation model curve distributed according to time (i.e. the operation model function of time-operation information) is formed by using the historical collected operation information and the currently collected operation information and using a fitting algorithm for these discrete operation information; and then, based on the established or corrected operation model, the subsequent operation information of each service processing unit can be predicted, and because the operation information (power consumption state, working mode and service load) has a corresponding relation with the power consumption, different power consumptions correspond to different operation information, the subsequent operation information of each service processing unit is determined, namely the subsequent power consumption of each service processing unit is determined, and the subsequent power consumption can be the power consumption required by the communication system after the set time length.

The following illustrates a manner of predicting the subsequent operation information of each service processing unit based on the established or modified operation model: for general services, derivation can be carried out on an operation model function, a required operation information increment (which can be a positive value or a negative value) is obtained by utilizing a set time length, and then subsequent operation information required by the communication system after the set time length is determined according to the current operation information and the operation information increment; or, for a general service, the operation model curve can be directly utilized to determine the value of the operation information corresponding to the operation model curve at the time point T after the set time length, namely the value of the subsequent operation information; or, further for the periodic service, the established operation model function is a periodic function, and the operation model curve or the operation model function can be directly utilized to determine the value of the operation information corresponding to the time point T after the set time length, that is, the value of the subsequent operation information. Because the corresponding relation exists between the operation information (power consumption state, working mode and service load) and the power consumption, different power consumptions correspond to different operation information, the subsequent operation information of each service processing unit is determined, namely the subsequent power consumption of each service processing unit is determined.

And 103, adjusting the consumption of each service processing unit according to the determined subsequent power consumption of each service processing unit, so that the power consumption of each service processing unit is adaptive to the determined subsequent power consumption.

In step 103, adjusting each service processing unit may be: directly adjusting each service processing unit; or, adjusting each service processing unit according to the set adjustment strategy. The adjustment strategy here may be: judging according to the set increment threshold, if the absolute value of the increment of the subsequent power consumption and the current power consumption (namely the difference value of the subsequent power consumption and the current power consumption can be a positive value or a negative value) is larger than the increment threshold, adjusting each service processing unit, otherwise, not adjusting each service processing unit; or, judging according to a set threshold window, wherein the threshold window comprises a lower limit window threshold and an upper limit window threshold, the current power consumption value is between the lower limit window threshold and the upper limit window threshold, if the subsequent power consumption is larger than the upper limit window threshold or smaller than the lower limit window threshold, adjusting each service processing unit, otherwise, not adjusting each service processing unit. Due to the fact that the adjustment strategy is set, when the change of the subsequent power consumption is smaller than the current power consumption, all the service units are not adjusted, and only when the power consumption increment exceeds a certain range, all the service units are adjusted, so that the adjustment frequency is reduced, the subsequent power consumption of all the service processing units is not required to be adjusted every time, the system is in a stable state, energy is consumed when the service processing units are adjusted, the power consumption is improved when the service processing units are adjusted too frequently, and therefore the power consumption can be further reduced and the energy efficiency of the system is improved due to the fact that the adjustment strategy is set. In order to ensure the service quality of the service, when it is determined that each service processing unit needs to be adjusted according to the set adjustment strategy, the adjustment strategy may further include setting a burst threshold (the burst threshold is set to be greater than an upper-limit window threshold or an absolute value of a difference between the burst threshold and the current power consumption is greater than an increment threshold) to determine whether the service change is abnormal, when the subsequent power consumption is greater than the burst threshold, the service is considered to be abnormally changed, otherwise, the service is considered to be normally fluctuated; subsequently, corresponding adjustment can be performed according to the service change condition, for example, for the normal fluctuation condition of the service, each service processing unit can be directly adjusted according to the subsequent power consumption, and for the abnormal increase of the service (for example, the service increment in a short time continuously far exceeds the maximum value of the upper limit of the window comparator), all the service processing units in the resource pool can be switched to the normal working mode at one time, and the maximum service processing capability is recovered.

In addition, because the processing capacity of the service processing unit is limited by the hardware of the service processing unit, the processing capacity of the service processing unit has a certain range, before the service processing unit is adjusted, whether the determined subsequent power consumption of the service processing unit exceeds the processing capacity limit of the service processing unit or not can be further judged, if the subsequent power consumption does not exceed the capacity limit of the service processing unit, the service processing unit is adjusted, otherwise, the service processing unit is adjusted only within the capacity limit range of the service processing unit. For example, the power consumption corresponding to the upper limit of the processing capability of a service processing unit is 100 units, the current power consumption of the service processing unit is 90 units, and the determined subsequent power consumption of the service processing unit is 110, because the subsequent power consumption 110 exceeds the processing capability limit 100 of the service processing unit, the power consumption of the service processing unit cannot be adjusted to 110 units, and the power consumption of the service processing unit can be adjusted to 100 units; and when the determined subsequent power consumption of one service processing unit is lower than the power consumption corresponding to the lower limit of the processing capacity of the service processing unit, directly closing the service processing unit or enabling the service processing unit to enter a sleep mode.

In step 103, when each service processing unit is specifically adjusted, different adjustment modes may be adopted, for example: the power consumption of each service processing unit is directly adjusted to the determined subsequent power consumption of each service processing unit, and the adjustment of the power consumption of each service processing unit can be realized by adjusting the actual processing capacity of each service processing unit or opening/closing part of the service processing units; or, according to the set working mode, the working mode of each service processing unit is adjusted to the working mode corresponding to the determined subsequent power consumption, for example, the power consumption of the energy-saving mode 1 corresponding to 0% -30% of the normal working mode, the power consumption of the energy-saving mode 2 corresponding to 30% -50% of the normal working mode, the power consumption of the energy-saving mode 3 corresponding to 50% -80% of the normal working mode, and the power consumption of the normal working mode are all corresponding, when the determined subsequent power consumption of one service processing unit is 70% of the power consumption of the normal working mode, the service processing unit is adjusted to the energy-saving mode 3, and other similarities are not repeated. In the above process, adjusting the actual processing capacity of the service processing units, adjusting the number of the actually operating service processing units, or adjusting the operating modes of the service processing units are all specific ways of adjusting the power consumption of each service processing unit, and when each service processing unit is actually adjusted, the adjustment of each service processing unit can be flexibly realized by adopting one or a combination of several of the three specific ways.

According to the embodiment of the invention, the operation information of each service processing unit is collected to carry out prediction processing, the subsequent power consumption of each service processing unit is dynamically determined, the power consumption of each service processing unit is adjusted, the power consumption of each service processing unit is adaptive to the determined subsequent power consumption, the power consumption of each service processing unit is adaptive to the change of the actual operation information, and each service processing unit can be in lower power consumption when the service volume is small, so that a better energy-saving effect is achieved.

Example two

As shown in fig. 2, an energy efficiency control apparatus of a communication system according to an embodiment of the present invention includes:

the monitoring module 21 is connected with each service processing unit through a monitoring bus, and is used for monitoring the operation of each service processing unit in the communication system and acquiring the operation information of each service processing unit;

the energy efficiency module 22 is configured to perform prediction processing based on the operation information acquired by the monitoring module 21, and determine subsequent power consumption of each service processing unit;

and the adjusting module 23 is connected with each service processing unit through a control bus, and is configured to adjust each service processing unit according to the subsequent power consumption of each service processing unit determined by the energy efficiency module 22, so that the power consumption of each service processing unit is adapted to the determined subsequent power consumption.

Further, the monitoring module 21 may include: the timing unit 211 is configured to start the acquisition unit 212 to acquire the operation information according to a certain period; the collecting unit 212 is configured to monitor operations of the service processing units in the communication system, and periodically collect operation information of the service processing units according to an instruction of the timing unit 211.

Further, energy efficiency module 22 may include: the establishing unit 221 is configured to establish or correct an operation model by using a fitting algorithm based on the operation information of each service processing unit acquired by the monitoring module 21; and the prediction unit is used for performing prediction processing by using the operation model established or corrected by the establishing unit 221 and the operation information of each current service processing unit acquired by the monitoring module 21, and determining the subsequent power consumption of each service processing unit.

Further, the adjusting module 23 may include: the policy unit 231 is configured to perform a judgment according to the set adjustment policy, and instruct the adjustment unit 232 to adjust each service processing unit when the subsequent power consumption of each service processing unit determined by the energy efficiency module 22 is within an adjustment range allowed by the adjustment policy, otherwise, not instruct the adjustment unit 232 to perform adjustment; and an adjusting unit 232, configured to adjust each service processing unit according to the instruction of the policy unit 231, so that the power consumption of each service processing unit is adapted to the determined subsequent power consumption. The adjustment policy set by the policy unit 231 may specifically refer to the relevant content in the first embodiment, which is not described herein again; the specific manner of adjusting each service processing unit by the adjusting unit 232 may also refer to the related contents in the first embodiment, which is not described herein again.

Optionally, the energy efficiency control device may further include: a reporting module 24, configured to connect to the gateway device through the network management interface or connect to the upper layer device through another reporting interface, and report any one or more combinations of the operation information collected by the monitoring module 21, the subsequent power consumption of each service processing unit determined by the energy efficiency module 22, the operation model established by the establishing unit 221, and the adjustment policy used by the policy unit 231 to the gateway device or another upper layer device.

According to the embodiment of the invention, the operation information of each service processing unit is collected to carry out prediction processing, the subsequent power consumption of each service processing unit is dynamically determined, the power consumption of each service processing unit is adjusted, the power consumption of each service processing unit is adaptive to the determined subsequent power consumption, the power consumption of each service processing unit is adaptive to the change of the actual operation information, and each service processing unit can be in lower power consumption when the service volume is small, so that a better energy-saving effect is achieved.

EXAMPLE III

As shown in fig. 3, an embodiment of the present invention provides a service processing unit capable of implementing energy efficiency control, including:

a service processing module 31, configured to connect to a subnet device through a transmission network, and process a service sent by the subnet device;

the energy efficiency control module 32 is connected with the service processing module 31 through a bus, monitors the operation of the service processing module 31, and acquires the operation information of each service processing unit; based on the collected operation information, performing prediction processing to determine the subsequent power consumption of the service processing module 31; and according to the determined subsequent power consumption of the service processing module 31, adjusting the service processing module 31 to adapt the power consumption of the service processing module 31 to the determined subsequent power consumption.

The specific division of the energy efficiency control module 32 may refer to the division of the energy efficiency control device provided in the second embodiment, and different from the energy efficiency control device provided in the second embodiment, the energy efficiency control module 32 of this embodiment is arranged inside the service processing unit, and the energy efficiency control module 32 is only responsible for energy efficiency control of the service processing unit where it is located.

According to the embodiment of the invention, the operation information of the service processing module in the service processing unit is collected to perform prediction processing, the subsequent power consumption of the service processing module is dynamically determined, and the power consumption of the service processing module is adjusted to adapt to the determined subsequent power consumption, so that the power consumption of the service processing unit is adapted to the change of the actual operation information, and the service processing unit can be in lower power consumption when the service volume is small, thereby achieving a better energy-saving effect.

Example four

As shown in fig. 4, an embodiment of the present invention provides a communication system capable of implementing energy efficiency control, including:

a plurality of service processing units 41, configured to connect to the sub-network 43 through a transmission network, and process services sent by the sub-network 43;

the energy efficiency control device 42 is connected with the plurality of service processing units 41 through a bus, monitors the operation of each service processing unit 41 in the communication system, and acquires the operation information of each service processing unit 41; performing prediction processing based on the collected operation information to determine the subsequent power consumption of each service processing unit 41; and adjusting each service processing unit 41 according to the determined subsequent power consumption of each service processing unit 41, so that the power consumption of each service processing unit 41 is adapted to the determined subsequent power consumption.

The energy efficiency control device 42 may be the energy efficiency control device of the communication system according to the second embodiment. The service processing unit 41 may be a service processing unit in the prior art, or a service processing unit provided in the third embodiment; when the service processing unit 41 is the service processing unit provided in the third embodiment, referring to fig. 5, the service processing unit 41 further includes a service processing module 411 and an energy efficiency control module 412, at this time, the energy efficiency control device 42 controlling the plurality of service processing units 41 and the energy efficiency control module 412 of the service processing unit 41 themselves may constitute a hierarchical energy efficiency control system, and the energy efficiency control device 42 and the energy efficiency control module 412 cooperate with each other, for example, the energy efficiency control device 42 collects operation information of each service processing unit 41, determines which service processing needs to be power consumption adjusted based on the collected operation information, then the energy efficiency control device 42 notifies the service processing unit needing power consumption adjustment, and the energy efficiency control module 412 in the service processing unit needing power consumption adjustment collects operation information of the service processing unit and determines subsequent power consumption of the service processing unit based on the collected operation information, and adjusting the service processing unit according to the subsequent power consumption.

According to the embodiment of the invention, the operation information of each service processing unit is collected to carry out prediction processing, the subsequent power consumption of each service processing unit is dynamically determined, the power consumption of each service processing unit is adjusted, the power consumption of each service processing unit is adaptive to the determined subsequent power consumption, the power consumption of each service processing unit is adaptive to the change of the actual operation information, and each service processing unit can be in lower power consumption when the service volume is small, so that a better energy-saving effect is achieved.

In the embodiments of the present invention, since the operation information may be any one or a combination of several of a power consumption status, an operating mode, and a service load, the established operation model may be a relational model between power consumption and time, or a relational model between a service load and time, or a relational model between power consumption and time and a relational model between a service load and time may be established at the same time. When a plurality of operation models, for example, a relation model between power consumption and time and a relation model between service load and time, are established, prediction processing may be performed according to the plurality of operation models, subsequent power consumption of the service processing unit corresponding to each operation model is determined, then subsequent powers corresponding to the plurality of operation models are averaged, and the average value is used as final subsequent power consumption.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

In short, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. A method for energy efficiency control in a communication system, comprising:

monitoring the operation of a service processing unit in a communication system, and collecting the operation information of the service processing unit;

performing prediction processing based on the collected operation information, and determining the subsequent power consumption of the service processing unit;

and adjusting the service processing unit according to the determined subsequent power consumption of the service processing unit.

2. The method of claim 1, wherein the performing the prediction process based on the collected operational information, and determining the subsequent power consumption of the traffic processing unit comprises:

establishing or correcting an operation model by adopting a fitting algorithm according to the acquired operation information of the service processing unit;

performing prediction processing by using the established or corrected operation model and the current operation information of the service processing unit, and determining the subsequent power consumption of the service processing unit;

wherein the operation information is one or more of power consumption, operation mode and traffic load.

3. The method of claim 2, wherein the performing the predictive process using the established or modified operational model and current operational information of the business processing unit, and determining subsequent power consumption of the business processing unit comprises:

carrying out derivative operation on a function corresponding to the established or corrected operation model, and obtaining a required operation information increment by using a set time length; determining subsequent power consumption required by the communication system after the set time length according to the current operation information and the operation information increment; or,

obtaining a value of operation information corresponding to a time point on a curve after the set time length by using the curve corresponding to the established or corrected operation model, and determining subsequent power consumption required by the communication system after the set time length according to the value of the corresponding operation information; or

When the function corresponding to the established or corrected operation model is a periodic function, the curve or the function corresponding to the operation model is utilized to obtain the value of the operation information corresponding to the time point after the set time length, and the subsequent power consumption required by the communication system after the set time length is determined according to the value of the corresponding operation information.

4. The method of claim 1, wherein prior to adjusting the traffic processing unit based on the determined subsequent power consumption of the traffic processing unit, the method further comprises:

judging whether to adjust the service processing unit according to the set adjustment strategy;

the adjustment strategy is as follows: if the absolute value of the increment of the subsequent power consumption and the current power consumption is larger than the increment threshold, adjusting the service processing unit, otherwise, not adjusting the service processing unit; or if the subsequent power consumption is larger than the upper limit window threshold or smaller than the lower limit window threshold, adjusting the service processing unit, otherwise, not adjusting the service processing unit, wherein the upper limit window threshold is larger than the lower limit window threshold, and the current power consumption is between the lower limit window threshold and the upper limit window threshold; or when the subsequent power consumption is larger than the burst threshold, adjusting the service processing unit to the maximum service processing capacity.

5. The method of any of claims 1 to 4, wherein said adjusting the traffic processing unit based on the determined subsequent power consumption of the traffic processing unit comprises:

directly adjusting the power consumption of the service processing unit to the determined subsequent power consumption of the service processing unit; or adjusting the working mode of the service processing unit to the working mode corresponding to the determined subsequent power consumption.

6. An energy efficiency control apparatus of a communication system, comprising:

the monitoring module is connected with the service processing unit through a monitoring bus and used for monitoring the operation of the service processing unit in the communication system and acquiring the operation information of the service processing unit;

the energy efficiency module is used for carrying out prediction processing based on the operation information acquired by the monitoring module and determining the subsequent power consumption of the service processing unit;

and the adjusting module is connected with the service processing unit through a control bus and used for adjusting the service processing unit according to the subsequent power consumption of the service processing unit determined by the energy efficiency module.

7. The apparatus of claim 6, wherein the monitoring module comprises:

the timing unit is used for starting the acquisition unit to acquire the operation information according to a certain period;

and the acquisition unit is used for monitoring the operation of the service processing unit in the communication system and periodically acquiring the operation information of the service processing unit according to the indication of the timing unit.

8. The apparatus of claim 6, wherein the energy efficiency module comprises:

the establishing unit is used for establishing or correcting an operation model by adopting a fitting algorithm based on the operation information of the service processing unit acquired by the monitoring module;

and the prediction unit is used for performing prediction processing by utilizing the operation model established or corrected by the establishing unit and the current operation information of the service processing unit acquired by the monitoring module to determine the subsequent power consumption of the service processing unit.

9. The apparatus of claim 6, wherein the adjustment module comprises:

the strategy unit is used for judging according to a set adjustment strategy, when the subsequent power consumption of the service processing unit determined by the energy efficiency module is within an adjustment range allowed by the adjustment strategy, the adjustment unit is instructed to adjust the service processing unit, otherwise, the adjustment unit is not instructed to adjust;

and the adjusting unit is used for adjusting the service processing unit according to the indication of the strategy unit.

10. A service processing unit for implementing energy efficiency control, comprising: the energy efficiency control device comprises a service processing module and the energy efficiency control device according to any one of claims 6 to 9, wherein the energy efficiency control device is connected with the service processing module through a bus;

and the service processing module is used for connecting with the subnet equipment through a transmission network and processing the service sent by the subnet equipment.

11. A communication system for implementing energy efficiency control, comprising: a plurality of service processing units and the energy efficiency control device of any one of claims 6 to 9, the energy efficiency control device being connected to the service processing units by a bus;

and the service processing unit is used for connecting with the subnet equipment through a transmission network and processing the service sent by the subnet equipment.

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