CN101873680B - Dynamic energy consumption control method, system and related equipment - Google Patents

Abstract

The embodiment of the invention relates to the technical field of energy consumption control, and discloses a dynamic energy consumption control method, a system and related equipment which are used for controlling the dynamic energy consumption of different network elements in a centralized way. The method comprises the following steps: obtaining the load information of business processing boards of different network elements; and according to the load information and a preset energy-saving strategy, sending energy-saving control instructions to the business processing boards of the different network elements, so that the business processing boards of the different network elements control the operation states according to the energy-saving control instructions so as to realize dynamic energy consumption control. The embodiment can control the dynamic energy consumption of the different network elements in the centralized way, reduce the inconvenience in configuration and maintenance, and reduce the resource consumption.

Description

A kind of dynamic energy consumption control method and system, relevant device

Technical field

The present invention relates to energy consumption control technology field, relate in particular to a kind of dynamic energy consumption control method and system, relevant device.

Background technology

In telecommunication system, typical traffic model is: idle (when 0-8) traffic is little, and system load is low; But busy (when 8-21) telephone traffic is large, system load is high.Because telecommunication system is to dispose according to the large specification of telephone traffic, in telecommunication system idle, can carry out the operations such as dormancy, lower electricity to idle telecommunication system resource by dynamic energy consumption control technology, in traffic affecting situation not, can reduce significantly the energy consumption of telecommunication system.

Fig. 1 is the structural representation of existing a kind of dynamic energy consumption control system.As shown in Figure 1, this dynamic energy consumption control system is to be deployed on each network element of telecommunication system, comprises master control set 101 and several service processing boards 102.Wherein, between master control set 101 and each service processing board 102, the privately owned software interface by internal system communicates; Energy Saving Strategy, energy saver mode and other parameters of pre-configured each service processing board 102 of master control set 101, then the load information reporting according to each service processing board 102, issue as energy-conservation control commands such as frequency conversion (ascending, descending frequently), dormancy, lower electricity, realize the control of the dynamic energy consumption to this network element.

Each above-mentioned network element needs to configure a master control set realizes the control of the dynamic energy consumption to this network element, in the case of the quantity of network element is many, not only can make troubles to configure and maintenance, but also cause the increase of resource consumption.

Summary of the invention

The embodiment of the present invention provides a kind of dynamic energy consumption control method and system, relevant device, can carry out centralized control to the dynamic energy consumption of different network elements.

A kind of dynamic energy consumption control method, comprising:

Obtain the load information of the service processing board of different network elements;

According to described load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to described different network elements, so that the service processing board of described different network elements is according to described its running status of Energy Saving Control instruction control, realize dynamic energy consumption control.

A kind of dynamic energy consumption control appliance, comprising:

Acquisition module, for obtaining the load information of service processing board of different network elements;

Control module, be used for according to described load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to described different network elements, so that the service processing board of described different network elements is according to described its running status of Energy Saving Control instruction control, realize dynamic energy consumption control.

A kind of dynamic energy consumption control method, comprising:

The load information of the service processing board of this network element is sent to master control set, to make described master control set obtain the load information of the service processing board of different network elements, and according to the load information of the service processing board of described different network elements and preset Energy Saving Strategy, send Energy Saving Control instruction to described different network elements;

Receive the Energy Saving Control instruction that described master control set sends;

The Energy Saving Control instruction that described master control set is sent is sent to the service processing board of described network element, so that its running status of Energy Saving Control instruction control that the service processing board of described network element sends according to described master control set realizes dynamic energy consumption control.

A kind of network element device, comprising:

Standard protocol interface, for the load information of service processing board is sent to master control set, to make described master control set obtain the load information of the service processing board of different network elements, and according to the load information of the service processing board of described different network elements and preset Energy Saving Strategy, send Energy Saving Control instruction to described different network elements; Receive the Energy Saving Control instruction that described master control set sends, and the Energy Saving Control instruction that described master control set is sent is sent to described service processing board;

Described service processing board, for its running status of Energy Saving Control instruction control sending according to described master control set, realizes dynamic energy consumption control.

A kind of dynamic energy consumption control system, comprises at least two network element devices and dynamic energy consumption control appliance;

Wherein, described network element device, for the load information of the service processing board of this network element being sent to described dynamic energy consumption control appliance, and receives the Energy Saving Control instruction that described dynamic energy consumption control appliance sends; The Energy Saving Control instruction that described dynamic energy consumption control appliance is sent is sent to the service processing board of this network element, so that its running status of Energy Saving Control instruction control that the service processing board of this network element sends according to dynamic energy consumption control appliance realizes dynamic energy consumption control;

Described dynamic energy consumption control appliance, for obtaining the load information of service processing board of at least two network element devices; According to described load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to described at least two network element devices.

Compared with prior art, the embodiment of the present invention can be obtained the load information of the service processing board of different network elements simultaneously, and according to the load information obtaining and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to different network elements, so that the service processing board of different network elements is according to Energy Saving Control instruction control dynamic energy consumption.Like this, can realize the centralized control of the dynamic energy consumption to different network elements, and realize the control of the dynamic energy consumption to this network element without configure a master control set on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

Brief description of the drawings

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of existing a kind of dynamic energy consumption control system;

The flow chart that Fig. 2 is a kind of dynamic energy consumption control method of providing in the embodiment of the present invention;

The flow chart that Fig. 3 is the another kind of dynamic energy consumption control method that provides in the embodiment of the present invention;

The structure chart that Fig. 4 is a kind of dynamic energy consumption control appliance of providing in the embodiment of the present invention;

The structure chart that Fig. 5 is the another kind of dynamic energy consumption control appliance that provides in the embodiment of the present invention;

The structure chart that Fig. 6 is a kind of network element device of providing in the embodiment of the present invention;

The structure chart that Fig. 7 is a kind of dynamic energy consumption control system of providing in the embodiment of the present invention.

Embodiment

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

A kind of dynamic energy consumption control method and system, relevant device are provided in the embodiment of the present invention, can carry out centralized control to the dynamic energy consumption of different network elements.Below be described in detail respectively.

Embodiment mono-:

Refer to Fig. 2, the flow chart that Fig. 2 is a kind of dynamic energy consumption control method of providing in the embodiment of the present invention, the method can comprise the following steps:

201, obtain the load information of the service processing board of different network elements;

In the present embodiment, network element can include but not limited to internet protocol multimedia subsystem (InternetProtocol Multimedia Subsystem, IMS) inner CSCF (Call SessionControl Function, CSCF) entity.Wherein, CSCF entity is whole IMS server, and CSCF entity comprises master control set and multiple service processing board.Wherein, the load information that master control set can report according to each service processing board, issues Energy Saving Control instruction to each service processing board, realizes the dynamic energy consumption control of this network element.

In the present embodiment, the master control set of different network elements can be separated from different network elements, and adopt the mode of a master control set to carry out concentrated dynamic energy consumption control to the different network elements of the whole network, realize the dynamic energy consumption control to this network element without configure a master control set on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.For example, can be at master control set of webmaster layer deploy, and on this master control set, preset various Energy Saving Strategy, this master control set can obtain by standard protocol interface the load information of the service processing board of different network elements, and according to above-mentioned load information and preset Energy Saving Strategy, send the Energy Saving Control instruction service processing board to above-mentioned different network elements, so that the service processing board of above-mentioned different network elements is according to this its running status of Energy Saving Control instruction control, thereby realize dynamic energy consumption control.

For instance, master control set can pass through the load information that service processing board that Simple Object Access Protocol (Simple Object AccessProtocol, SOAP) interface receives different network elements reports; Or this master control set also can carry out by other standard protocol interface the load information of the service processing board of active monitoring different network elements.

Wherein, SOAP interface is a kind of light weight, simple, standard protocol interface based on extend markup language (ExtensibleMarkup Language, XML).In telecommunication system, SOAP interface can be used as the identity protocol interface between webmaster and network element, realizes the communication between webmaster and network element.

202, according to above-mentioned load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to above-mentioned different network elements, so that the service processing board of above-mentioned different network elements is according to this its running status of Energy Saving Control instruction control, realize dynamic energy consumption control.

In the present embodiment, master control set can receive and send the service processing board of Energy Saving Control instruction to above-mentioned different network elements by SOAP interface direct, and wherein, this Energy Saving Control instruction can be frequency conversion (raising frequency or frequency reducing) instruction, can be also dormancy instruction;

Or, master control set can send the Subrack Management Module of Energy Saving Control instruction to above-mentioned different network elements by SOAP interface, so that this Energy Saving Control instruction is issued to the service processing board of above-mentioned different network elements by the Subrack Management Module of different network elements, this Energy Saving Control instruction can be lower electric instruction, also can be the instruction that powers on, can also be to wake instruction up.

Wherein, Subrack Management Module can pass through Intelligent Platform Management Bus (Intelligent PlatformManagement Bus, IPMB) Energy Saving Control instruction SOAP interface being sent is issued to service processing board, so that this service processing board is according to this Energy Saving Control instruction control dynamic energy consumption.

In the present embodiment, this dynamic energy consumption control method, can also pre-configured Energy Saving Strategy before above-mentioned steps 201.

Wherein, can in advance Energy Saving Strategy be configured in master control set by man-machine configuration interface by administrative staff.The Energy Saving Strategy configuring can comprise whether allow energy-conservation, energy-conservation time window, one or more in energy saver mode (comprising frequency conversion, dormancy, lower electricity).Wherein, so-called energy-conservation time window, is used to indicate that within the time range of this energy-conservation time window, to carry out dynamic energy consumption energy-conservation, or, outside the time range of this energy-conservation time window, carry out dynamic energy consumption energy-conservation.Wherein, above-mentioned energy saver mode is to formulate according to service application type and the load of service processing board.Wherein, in the present embodiment, related load can be central processing unit (Central Processing Unit, the CPU) occupancy of service processing board.

In the present embodiment, master control set can be deployed in webmaster layer, or be deployed in separately other and be independent of the place of different network elements, master control set can obtain the load information of the service processing board of different network elements simultaneously, and according to the load information obtaining and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to different network elements, so that the service processing board of different network elements is according to Energy Saving Control instruction control dynamic energy consumption.Like this, can realize the centralized control of the dynamic energy consumption to different network elements, and realize the control of the dynamic energy consumption to this network element without configure a master control set on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

Embodiment bis-:

In the present embodiment by the service processing board of network element being carried out to dormancy and waking to introduce the dynamic energy consumption control method that the embodiment of the present invention provides up.

Wherein, the process that service processing board carries out dormancy can comprise the following steps:

S1 monitor stages:

The load information of the service processing board that master control set reports by SOAP interface reception different network elements, finds that the dormancy condition of a certain service processing board of a certain network element is set up, and issues the dormancy instruction of this service processing board to the SOAP interface of this network element.

Or, master control set is periodically monitored the load information of the service processing board of different network elements by SOAP interface, find the dormancy condition establishment of a certain service processing board of a certain network element, issue the dormancy instruction of this service processing board to the SOAP interface of this network element.

Wherein, the load information of the service processing board of reported by network elements can carry CPU usage information, and the load of the higher explanation service processing board of CPU usage is larger; Otherwise, illustrate that the load of service processing board is less.Further, the load information of the service processing board of reported by network elements also carries the essential information of this network element, and this essential information can comprise this element name, frame number, slot number, service processing board configuration information etc.Like this, in the time that master control set receives the load information of service processing board, can know which service processing board of this load information from which network element.

S2 business isolation stage:

After network element receives the dormancy instruction of the service processing board that master control set issues by SOAP interface, it is isolation that this service processing board is set.Now, this service processing board is no longer accepted new business (for example calling out) access, and access service is unaffected, continues to process, until all business complete or number of services is less than default value.Isolate by business, can farthest reduce the impact of dormancy on business.

The S3 dormant stage:

After Business Processing completes, service processing board enters resting state.

S4 dormancy the stage of recognition:

Subrack Management Module can detect that the state of service processing board is dormant state by IPMB bus, notice SOAP interface dormancy success.Return to dormancy success response message by SOAP interface to master control set.

Increase when master control set monitors net element business, need to wake the service processing board of some network elements of dormancy up time, can issue wake command to the SOAP interface of corresponding network element.Wherein, service processing board wakeup process can comprise the following steps:

S1 monitor stages:

The load information of the service processing board that master control set reports by SOAP interface reception different network elements, finds that the wake-up condition of the service processing board of a certain network element is set up, and issues the instruction that wakes up of this service processing board to the SOAP interface of this network element.

For example, when master control set is found the service processing board dormancy of a certain network element, the CPU usage of system is greater than a certain threshold value, illustrates that the wake-up condition of the service processing board of this network element is set up, can be to the instruction that wakes up of the SOAP interface issuing service disposable plates of this network element.

S2 awakening phase:

Network element by SOAP interface receive service processing board wake instruction up after, the above-mentioned Subrack Management Module that wakes instruction up and be issued to this network element that SOAP interface is received, is waken up the service processing board of dormancy one by one by the Subrack Management Module of this network element.

Wherein, what Subrack Management Module can issue SOAP interface wake instruction up is issued to service processing board one by one by IPMB bus, realizes waking up of service processing board.After service processing board is waken up, can sets up immediately service link and start Business Processing.

S3 wakes the stage of recognition up:

Subrack Management Module detects that by IPMB bus the state of service processing board is activated state, and notice SOAP interface wakes up successfully.Return and wake success response message up to master control set by SOAP interface.

In the present embodiment, so-called service processing board carries out dormancy and refers to that the context of system all suspends in internal memory, and the pattern that internal memory enters self-refresh is carried out preservation information and do not lost.In this case, whole system has electricity in only having, and other all peripheral hardwares (comprising CPU) are all lower electric, and this state is also referred to as S3 state.Compared with S0 state (activated state) dynamic energy consumption, the energy-saving effect of S3 state is more obvious.For example, statistics shows, compared with S0 state, S3 state can be saved 87.5% dynamic energy consumption.But system wake-up duration also progressively elongates under S3 state, the impact of quality of service also progressively increases.S3 state is the optimal balance point that quality of service guarantee and system energy consumption are saved.

In the present embodiment, master control set can be independent of network element deployment, can obtain the load information of the service processing board of different network elements by SOAP interface simultaneously, and according to the load information obtaining and preset Energy Saving Strategy, send dormancy instruction or wake the service processing board of instruction to different network elements up, so that the service processing board of different network elements carries out dormancy according to dormancy instruction, or wake up according to waking instruction up.Like this, can realize the centralized control of the dynamic energy consumption to different network elements, and realize the control of the dynamic energy consumption to this network element without configure a master control set on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

In addition, in the dynamic energy consumption control method providing in the embodiment of the present invention, to the service processing board in state of activation, master control set can further judge whether to carry out raising frequency or frequency reducing control to service processing board according to Energy Saving Strategy, to realize the fine-grained management to dynamic energy consumption.

Wherein, raising frequency or frequency-dropping function can be realized based on intelligent frequency reduction technology (EIST) or advanced configuration and power-management interface (Advanced Configuraion and Power Management Interface) technology, and this technology is put corresponding frequency and controlled the consumption of dynamic energy consumption by definition different performance.For example, the load information of master control set monitoring network element, and according to the Energy Saving Control strategy of configuration, issue the frequency of appointment, service processing board application software drives interface (speedstep-centrino or acpi-cpufreq) that the modes such as cpu frequency are set by lifting frequency and realizes, and the present embodiment does not repeat.

The frequency modulation strategy of supporting at present has Performance, Powersave, Userspace, tetra-kinds of patterns of Ondemand, the business load of master control set monitoring network element, and according to the Energy Saving Control strategy of configuration, issue control command, carry out cpu frequency control.Such as Userspace pattern, managing power consumption center issues the frequency of appointment, and the lifting frequency that veneer application software provides by OS drives interface (speedstep-centrino or acpi-cpufreq) that cpu frequency is set.

Embodiment tri-:

Refer to Fig. 3, the flow chart that Fig. 3 is a kind of dynamic energy consumption control method of providing in the embodiment of the present invention, the method can comprise the following steps:

301, the load information of the service processing board of this network element is sent to master control set;

In the present embodiment, network element can be sent to master control set by the load information of the service processing board of this network element by SOAP interface or other standards protocol interface.

302, receive the Energy Saving Control instruction that master control set sends;

Wherein, master control set can be connected with different network elements by SOAP interface or other standards protocol interface, obtain the load information of the service processing board of different network elements, and according to the load information of the service processing board of different network elements and preset Energy Saving Strategy, send Energy Saving Control instruction to different network elements.

303, Energy Saving Control instruction master control set being sent is sent to the service processing board of this network element, so that its running status of Energy Saving Control instruction control that the service processing board of this network element sends according to master control set realizes dynamic energy consumption control.

In the present embodiment, if the Energy Saving Control instruction that master control set sends is frequency conversion instruction or dormancy instruction, can directly be sent to the service processing board of this network element; If the Energy Saving Control instruction that master control set sends is lower electric instruction or the instruction or wake instruction up of powering on, the Energy Saving Control instruction that master control set can be sent is issued to Subrack Management Module, so that the Energy Saving Control instruction that master control set sends is issued to the service processing board of this network element by this Subrack Management Module, realize dynamic energy consumption control.

Wherein, the Energy Saving Control instruction that Subrack Management Module can issue master control set by IPMB bus is issued to service processing board, so that service processing board is according to Energy Saving Control instruction control dynamic energy consumption.

In the present embodiment, network element can communicate by the standard protocol interface such as SOAP interface and master control set, make master control set can be independent of network element deployment, can realize the centralized control of the dynamic energy consumption to different network elements, and without the dynamic energy consumption that configures a master control set and control this network element on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

Embodiment tetra-:

Refer to Fig. 4, the structure chart that Fig. 4 is a kind of dynamic energy consumption control appliance of providing in the embodiment of the present invention, for realizing the function of above-mentioned master control set.As shown in Figure 4, this equipment can comprise:

Acquisition module 401, for obtaining the load information of service processing board of different network elements;

Policy module 402, for preset Energy Saving Strategy;

Control module 403, for according to above-mentioned load information and preset Energy Saving Strategy, sends the service processing board of Energy Saving Control instruction to above-mentioned different network elements, so that the service processing board of above-mentioned different network elements is according to its running status of Energy Saving Control instruction control.

In the present embodiment, the load information that acquisition module 401 specifically can report for receive the service processing board of different network elements by SOAP interface.

See also Fig. 5, the structure chart that Fig. 5 is the another kind of dynamic energy consumption control appliance that provides in the embodiment of the present invention, for realizing the function of above-mentioned master control set.In the dynamic energy consumption control appliance shown in Fig. 5, control module 403 can comprise:

The first submodule 4031, for sending the service processing board of Energy Saving Control instruction to above-mentioned different network elements, this Energy Saving Control instruction is frequency conversion instruction or dormancy instruction;

In the present embodiment, if Energy Saving Control instruction is frequency conversion instruction or dormancy instruction, the first submodule 4031 specifically can send the service processing board of this Energy Saving Control instruction to above-mentioned different network elements by SOAP interface.

The second submodule 4032, for sending the Subrack Management Module of Energy Saving Control instruction to above-mentioned different network elements, so that this Energy Saving Control instruction is issued to the service processing board of above-mentioned different network elements by the Subrack Management Module of above-mentioned different network elements, this Energy Saving Control instruction is lower electric instruction or the instruction or wake instruction up of powering on.

In the present embodiment, if Energy Saving Control instruction is lower electric instruction or the instruction or wake instruction up of powering on, the second submodule 4032 specifically can send the Subrack Management Module of Energy Saving Control instruction to above-mentioned different network elements by SOAP interface, so that this Energy Saving Control instruction is issued to the service processing board of above-mentioned different network elements by the Subrack Management Module of above-mentioned different network elements.

In the present embodiment, acquisition module 401 can obtain the load information of the service processing board of different network elements simultaneously, control module 403 can be according to the load information obtaining and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to different network elements, so that the service processing board of different network elements is according to Energy Saving Control instruction control dynamic energy consumption.Like this, can realize the centralized control of the dynamic energy consumption to different network elements, and realize the control of the dynamic energy consumption to this network element without configure a master control set on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

Embodiment five:

Refer to Fig. 6, the structure chart that Fig. 6 is a kind of network element device of providing in the embodiment of the present invention.As shown in Figure 6, this network element device can comprise standard protocol interface 601 and service processing board 602;

Wherein, standard protocol interface 601, for the load information of service processing board 602 is sent to master control set, and receives the Energy Saving Control instruction that master control set sends; The Energy Saving Control instruction that master control set is sent is sent to service processing board 602;

In the present embodiment, if the Energy Saving Control instruction that master control set sends is frequency conversion instruction or dormancy instruction, standard protocol interface 601 can directly be sent to service processing board 602 by this Energy Saving Control instruction by SOAP interface.

In the present embodiment, master control set can be connected with different network elements by SOAP interface or other standards protocol interface, obtain the load information of the service processing board of different network elements, and according to the load information of the service processing board of different network elements and preset Energy Saving Strategy, send Energy Saving Control instruction to different network elements.

Service processing board 602, for its running status of Energy Saving Control instruction control sending according to master control set, thereby realizes dynamic energy consumption control.

In the present embodiment, standard protocol interface 601 can include but not limited to SOAP interface.

In the present embodiment, if the Energy Saving Control instruction that master control set sends is lower electric instruction or the instruction or wake instruction up of powering on, network element device can also comprise Subrack Management Module 603;

Now, standard protocol interface 601 is specifically for the load information of service processing board 602 is sent to master control set, and receives the Energy Saving Control instruction that master control set sends; The Energy Saving Control instruction that master control set is sent is sent to Subrack Management Module 603;

Subrack Management Module 603, be issued to service processing board 602 for Energy Saving Control instruction standard protocol interface 601 being issued by IPMB bus (as shown in phantom in Figure 6), so that its running status of Energy Saving Control instruction control that service processing board 602 sends according to master control set, thereby realize dynamic energy consumption control.

In the present embodiment, network element device can communicate by standard protocol interface 601 and master control set, make master control set can be independent of network element deployment, can realize the centralized control of the dynamic energy consumption to different network elements, and without the control that configures a master control set and realize the dynamic energy consumption to this network element on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

Embodiment six:

Refer to Fig. 7, the structure chart that Fig. 7 is a kind of dynamic energy consumption control system of providing in the embodiment of the present invention.As shown in Figure 7, this system can comprise dynamic energy consumption control appliance 701 and at least two network element devices 702, wherein, the dynamic energy consumption control appliance 701 that the present embodiment provides is identical with the function of the described dynamic energy consumption control appliance of above-described embodiment five, and the present embodiment is not repeated.Wherein, network element device 702 can be by communicating by letter with dynamic energy consumption control appliance 701 in standard protocol interface such as SOAP interfaces.

Wherein, network element device 702, for the load information of the service processing board of this network element is sent to dynamic energy consumption control appliance 701, and receives the Energy Saving Control instruction that dynamic energy consumption control appliance 701 sends; The Energy Saving Control instruction that dynamic energy consumption control appliance 701 is sent is sent to the service processing board of this network element, so that its running status of Energy Saving Control instruction control that the service processing board of this network element sends according to dynamic energy consumption control appliance 701 realizes dynamic energy consumption control;

Dynamic energy consumption control appliance 701, for obtaining the load information of service processing board of at least two network element devices 702; According to this load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction at least two network element devices 702.

In the present embodiment, network element device 702 can communicate by standard protocol interface and dynamic energy consumption control appliance 701, make dynamic energy consumption control appliance 701 can be independent of network element deployment, can realize the centralized control of the dynamic energy consumption to different network elements, and without the control that configures a master control set and realize the dynamic energy consumption to this network element on each network element, thereby can reduce the inconvenience on configure and maintenance, reduce resource consumption.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can complete by the relevant hardware of program command, aforesaid program can be stored in a computer read/write memory medium, this program, in the time carrying out, is carried out the step that comprises said method embodiment; And aforesaid storage medium comprises: various media that can be program code stored such as read-only memory (Read-Only Memory, ROM), random access device (RandomAccess Memory, RAM), magnetic disc or CDs.

A kind of the dynamic energy consumption control method above embodiment of the present invention being provided and system, relevant device are described in detail, applied specific case herein principle of the present invention and execution mode are set forth, the explanation of above embodiment is just for helping to understand method of the present invention and core concept thereof; , for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention meanwhile.

Claims (9)

1. a dynamic energy consumption control method, is characterized in that, comprising:

Obtain the load information of the service processing board of different network elements, described network element is the CSCF CSCF entity in internet protocol multimedia subsystem IMS;

According to described load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to described different network elements, so that the service processing board of described different network elements is according to described its running status of Energy Saving Control instruction control, realize dynamic energy consumption control, wherein, described Energy Saving Strategy comprises whether allowing one or more in energy-conservation, energy-conservation time window or energy saver mode;

The load information of the described service processing board that obtains different network elements is obtained by master control set, and described master control set is deployed on webmaster layer, and preset Energy Saving Strategy in described master control set;

The load information of the described service processing board that obtains different network elements comprises: the load information reporting by the service processing board of Simple Object Access Protocol interface reception different network elements.

2. method according to claim 1, is characterized in that, described transmission Energy Saving Control instruction to the service processing board of described different network elements comprises:

Send the service processing board of Energy Saving Control instruction to described different network elements, described Energy Saving Control instruction is frequency conversion instruction or dormancy instruction;

Or, send the Subrack Management Module of Energy Saving Control instruction to described different network elements, so that described Energy Saving Control instruction is issued to the service processing board of described different network elements by the Subrack Management Module of described different network elements, described Energy Saving Control instruction is lower electric instruction or the instruction or wake instruction up of powering on.

3. a dynamic energy consumption control appliance, is characterized in that, described deployed with devices is on webmaster layer, and described equipment comprises:

Acquisition module, for obtaining the load information of service processing board of different network elements, described network element is the CSCF CSCF entity in internet protocol multimedia subsystem IMS;

Control module, be used for according to described load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to described different network elements, so that the service processing board of described different network elements is according to described its running status of Energy Saving Control instruction control, realize dynamic energy consumption control;

Policy module, for preset Energy Saving Strategy, described Energy Saving Strategy comprises whether allowing one or more in energy-conservation, energy-conservation time window or energy saver mode;

The load information that described acquisition module reports specifically for receive the service processing board of different network elements by Simple Object Access Protocol interface.

4. equipment according to claim 3, is characterized in that, described control module comprises:

The first submodule, for sending the service processing board of Energy Saving Control instruction to described different network elements, described Energy Saving Control instruction is frequency conversion instruction or dormancy instruction;

The second submodule, for sending the Subrack Management Module of Energy Saving Control instruction to described different network elements, so that described Energy Saving Control instruction is issued to the service processing board of described different network elements by the Subrack Management Module of described different network elements, described Energy Saving Control instruction comprises lower electric instruction or the instruction or wake instruction up of powering on.

5. a dynamic energy consumption control method, is characterized in that, comprising:

The load information of the service processing board of this network element is sent to master control set by network element, described network element is the CSCF CSCF entity in internet protocol multimedia subsystem IMS, to make described master control set obtain the load information of the service processing board of different network elements, and according to the load information of the service processing board of described different network elements and preset Energy Saving Strategy, send Energy Saving Control instruction to described different network elements, wherein, described Energy Saving Strategy comprise whether allow energy-conservation, one or more in energy-conservation time window or energy saver mode, described master control set is deployed on webmaster layer,

Receive the Energy Saving Control instruction that described master control set sends;

The Energy Saving Control instruction that described master control set is sent is sent to the service processing board of described network element, so that its running status of Energy Saving Control instruction control that the service processing board of described network element sends according to described master control set realizes dynamic energy consumption control;

The described load information by the service processing board of this network element is sent to master control set and comprises: by Simple Object Access Protocol interface, the load information of the service processing board of this network element is sent to master control set;

The Energy Saving Control instruction that the described master control set of described reception sends comprises: receive by Simple Object Access Protocol interface the Energy Saving Control instruction that described master control set sends.

6. method according to claim 5, is characterized in that, the service processing board that the described Energy Saving Control instruction that described master control set is sent is sent to described network element comprises:

If the Energy Saving Control instruction that described master control set sends is frequency conversion instruction or dormancy instruction, be directly sent to the service processing board of described network element;

If the Energy Saving Control instruction that described master control set sends is lower electric instruction or the instruction or wake instruction up of powering on, the Energy Saving Control instruction described master control set being sent is issued to Subrack Management Module, so that the Energy Saving Control instruction that described master control set sends is issued to the service processing board of described network element by described Subrack Management Module.

7. a network element device, is characterized in that, described network element device is the CSCF CSCF entity in internet protocol multimedia subsystem IMS, and described network element device comprises:

Standard protocol interface, for the load information of service processing board is sent to master control set, to make described master control set obtain the load information of the service processing board of different network elements, and according to the load information of the service processing board of described different network elements and preset Energy Saving Strategy, send Energy Saving Control instruction to described different network elements; Receive the Energy Saving Control instruction that described master control set sends, and the Energy Saving Control instruction that described master control set is sent is sent to described service processing board, wherein, described Energy Saving Strategy comprises whether allowing one or more in energy-conservation, energy-conservation time window or energy saver mode; Described standard protocol interface comprises Simple Object Access Protocol interface, and described master control set is deployed on webmaster layer;

Described service processing board, for its running status of Energy Saving Control instruction control sending according to described master control set, realizes dynamic energy consumption control.

8. network element device according to claim 7, is characterized in that, if the Energy Saving Control instruction that described master control set sends is lower electric instruction or the instruction or wake instruction up of powering on, described network element device also comprises Subrack Management Module;

Described standard protocol interface, specifically for the load information of service processing board is sent to master control set, and receives the Energy Saving Control instruction that described master control set sends; The Energy Saving Control instruction that described master control set is sent is sent to described Subrack Management Module;

Described Subrack Management Module, is issued to described service processing board for the Energy Saving Control instruction described standard protocol interface being issued by Intelligent Platform Management Bus.

9. a dynamic energy consumption control system, it is characterized in that, comprise at least two network element devices and dynamic energy consumption control appliance, described network element device is the CSCF CSCF entity in internet protocol multimedia subsystem IMS, and described dynamic energy consumption control appliance is deployed on webmaster layer;

Described network element device, for the load information of the service processing board of this network element device being sent to described dynamic energy consumption control appliance, and receives the Energy Saving Control instruction that described dynamic energy consumption control appliance sends; The Energy Saving Control instruction that described dynamic energy consumption control appliance is sent is sent to the service processing board of this network element device, so that its running status of Energy Saving Control instruction control that the service processing board of this network element device sends according to dynamic energy consumption control appliance realizes dynamic energy consumption control;

Described dynamic energy consumption control appliance, for obtaining the load information of service processing board of at least two network element devices; According to described load information and preset Energy Saving Strategy, send the service processing board of Energy Saving Control instruction to described at least two network element devices; Wherein, obtain the load information of the service processing board of at least two network element devices by Simple Object Access Protocol interface;

Wherein, described Energy Saving Strategy comprises whether allowing one or more in energy-conservation, energy-conservation time window or energy saver mode.