CN105700657A - Machine frame power management method and apparatus as well as machine frame system - Google Patents

Abstract

The invention provides a machine frame power management method and apparatus as well as a machine frame system. The management method comprises the steps of obtaining single-board information and power information in the whole machine frame; according to the single-board information and the power information, obtaining a single-board power-on/power-off instruction; and according to the single-board power-on/power-off instruction, controlling a power-on/power-off state of a corresponding single board. According to the scheme, a power supply is managed by controlling the power-on/power-off state of the corresponding single board according to the single-board information and the power information in the whole machine frame, so that the single board is powered on or off along with the adjustment of the power consumption of the system and the problem of instable running of the machine frame caused by low power of the machine frame is solved; and the overcurrent of the power supply can be prevented and certain slots are controlled to be powered off, so that the power consumption can be reduced for the system and the effects of system protection, energy conservation and environmental protection are achieved.

Description

The management method of a kind of machine frame power supply, device and machine frame system

Technical field

The present invention relates to power technique fields, particularly relate to the management method of a kind of machine frame power supply, device and machine frame system。

Background technology

In general machine frame system, it is understood that there may be multiple powerful veneers run simultaneously, thus need multiple power module simultaneously online and power needs are provided。But, when some power module breaks down and cannot power, remaining power module possibly cannot be powered by bio-occlusion machine frame, thus machine frame veneer fluctuation of service can be caused, or the consequence that whole machine frame is electric under entirety because of power over loading。

Simultaneously, the power that in prior art, power module provides is to be powered to equipment all of on machine frame, do not carry out the reserved of intrinsic equipment (including master control, fan, exchange etc.) power consumption, when the power consumption thus likely provided at power module is in marginal value, these intrinsic equipment newly-increased there will be machine frame fluctuation of service or the phenomenon of overall lower electricity。

Summary of the invention

The technical problem to be solved in the present invention is to provide the management method of a kind of machine frame power supply, device and machine frame system, the problem solving to cause machine frame fluctuation of service due to machine frame power deficiency in prior art。

In order to solve above-mentioned technical problem, the embodiment of the present invention provides the management method of a kind of machine frame power supply, including:

Obtain the single board information in whole machine frame and power information；

Veneer power-on and power-off instruction is obtained according to described single board information and power information；

The power-on and power-off of corresponding veneer are controlled according to described veneer power-on and power-off instruction。

Wherein, obtain the step of veneer power-on and power-off instruction according to described single board information and power information to include:

Complete machine power supply power consumption, the reserved power consumption of system and the online peripheral hardware power consumption of system is obtained according to described single board information and power information；

The reserved power consumption of described complete machine power supply power consumption, system and the online peripheral hardware power consumption calculation of system is utilized to show that system can use power consumption；

Veneer power-on and power-off instruction can be obtained by power consumption according to described single board information and system。

Wherein, described complete machine power supply power consumption is the product of power available number and single power supply power consumption value, the reserved power consumption of described system be master control borad number with single master control borad power consumption number product, power board number and single power board power consumption number product and fan board number and single fan board power consumption number product and, described system online peripheral hardware power consumption is the summation of the consumed power consumption number of the equipment powered in place in system except master control borad, power board and fan board。

Wherein, according to described single board information and system can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the rated power of veneer to be powered on；

If described rated power can use power consumption more than described system, it is thus achieved that the instruction that this veneer to be powered on does not power on；

If described rated power is consuming time less than or equal to described system available work, it is thus achieved that the instruction of this Board Power up to be powered on。

Wherein, according to described single board information and system can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the power capacity of the power supply that power information changes；

The system after power supply changes can be calculated by power consumption according to described power capacity and described system and can use power consumption；

System after changing according to described single board information and power supply can obtain veneer power-on and power-off instruction by power consumption。

Wherein, when power information after the change instruction power supply is reached the standard grade, the system after changing according to described single board information and power supply can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the rated power and the type that are in power-down state veneer in place；

Search the system after described rated power changes less than or equal to described power supply and can use the power-down state veneer in place of power consumption；

Search in the power-down state veneer in place obtained for the first time and again search the power-down state veneer in place that type priority level is higher；

The power-down state veneer in place that power consumption difference is less can be used searching the system after lookup in the power-down state veneer in place obtained changes with power supply for the second time；

Corresponding Board Power up instruction is obtained according to searching the power-down state veneer in place obtained for the third time。

Wherein, power information after the change instruction power supply rolls off the production line or exception and power supply change after system when can be negative value by power consumption, the system after changing according to described single board information and power supply can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the rated power and the type that are in power-up state veneer in place；

Search the system after described rated power changes be more than or equal to described power supply and can use the power-up state veneer in place of power consumption absolute value；

Search in the power-up state veneer in place obtained for the first time and again search the power-up state veneer in place that type priority level is relatively low；

The power-up state veneer in place that power consumption absolute value differences is less can be used searching the system after lookup in the power-up state veneer in place obtained changes with power supply for the second time；

Electricity instruction under corresponding veneer is obtained according to searching the power-up state veneer in place obtained for the third time。

Present invention also offers the managing device of a kind of machine frame power supply, including:

Monitoring module, is used for the single board information and the power information that obtain in whole machine frame；

Power management module, for obtaining veneer power-on and power-off instruction according to described single board information and power information；

Veneer supply module, for controlling the power-on and power-off of corresponding veneer according to described veneer power-on and power-off instruction。

Wherein, described power management module includes:

Data analysis submodule, for obtaining complete machine power supply power consumption, the reserved power consumption of system and the online peripheral hardware power consumption of system according to described single board information and power information, and the reserved power consumption of described complete machine power supply power consumption, system and the online peripheral hardware power consumption calculation of system is utilized to show that system can use power consumption；

Decision-making submodule, for obtaining veneer power-on and power-off instruction by power consumption according to described single board information and system。

Wherein, described decision-making submodule is specifically for obtaining the rated power of veneer to be powered on；If described rated power can use power consumption more than described system, it is thus achieved that the instruction that this veneer to be powered on does not power on；If described rated power can use power consumption less than or equal to described system, it is thus achieved that the instruction of this Board Power up to be powered on。

Wherein, described decision-making submodule is specifically for obtaining the power capacity of the power supply that power information changes；The system after power supply changes can be calculated by power consumption according to described power capacity and described system and can use power consumption；System after changing according to described single board information and power supply can obtain veneer power-on and power-off instruction by power consumption。

The embodiment of the present invention additionally provides a kind of machine frame system, including at least one veneer and at least one power supply, also includes: the managing device of above-mentioned machine frame power supply, described veneer and power supply are all connected with the managing device of described machine frame power supply。

Having the beneficial effect that of the technique scheme of the present invention:

In such scheme, the management method of described machine frame power supply manages power supply by controlling the power-on and power-off of corresponding veneer according to the single board information in whole machine frame and power information, realize veneer with the adjustment of system power dissipation and power-on and power-off therewith, solve the problem owing to machine frame power deficiency causes machine frame fluctuation of service；And what be possible to prevent power supply crosses stream, controls some groove position and does not power on, it is possible to save power consumption for system, thus reaching the effect of system protection and energy-saving and environment friendly simultaneously。

Accompanying drawing explanation

Fig. 1 is the management method step schematic diagram of the machine frame power supply of the embodiment of the present invention；

Fig. 2 is the management method idiographic flow schematic diagram of the machine frame power supply of the embodiment of the present invention；

Fig. 3 is the managing device structural representation of the machine frame power supply of the embodiment of the present invention；

The machine frame system that Fig. 4 is the embodiment of the present invention constitutes schematic diagram。

Detailed description of the invention

For making the technical problem to be solved in the present invention, technical scheme and advantage clearly, it is described in detail below in conjunction with the accompanying drawings and the specific embodiments。

The present invention is directed to the problem causing machine frame fluctuation of service due to machine frame power deficiency in existing technology, it is provided that the management method of a kind of machine frame power supply, as it is shown in figure 1, include:

Step 11: obtain the single board information in whole machine frame and power information；

Step 12: obtain veneer power-on and power-off instruction according to described single board information and power information；

Step 13: control the power-on and power-off of corresponding veneer according to described veneer power-on and power-off instruction。

The management method of the described machine frame power supply that the embodiment of the present invention provides manages power supply by controlling the power-on and power-off of corresponding veneer according to the single board information in whole machine frame and power information, realize veneer with the adjustment of system power dissipation and power-on and power-off therewith, solve the problem owing to machine frame power deficiency causes machine frame fluctuation of service；And what be possible to prevent power supply crosses stream, controls some groove position and does not power on, it is possible to save power consumption for system, thus reaching the effect of system protection and energy-saving and environment friendly simultaneously。

Wherein, single board information includes the state in place of veneer, board type and veneer rated power, and veneer state in place includes veneer state not in place, veneer power-down state in place and veneer power-up state in place；Power information includes the state in place (upper down status) of power supply, communications status, running status, input power and power capacity etc.；In the normal situation of communications status between power supply and machine frame master control borad, can inquiring power information, running status includes the output voltage values of power supply, output current value and abnormality warning information。

Only reach the standard grade at power supply and in all normal situation of power source communications state and power supply running status, just judge that this power supply is available, and accurately the power (input power and power capacity) of this power supply can be judged and calculates。

In order to ensure stablizing of machine frame electric power system, general each machine frame can configure multiple power supply。The power that each power supply can be provided by is fixing, so, when there being multiple power supply online, it is possible to provide power support to more veneer。Therefore, the state in place obtaining power supply is to realize the basis of Intelligent management of power。

Concrete, the step obtaining veneer power-on and power-off instruction according to described single board information and power information includes: obtain complete machine power supply power consumption, the reserved power consumption of system and the online peripheral hardware power consumption of system according to described single board information and power information；The reserved power consumption of described complete machine power supply power consumption, system and the online peripheral hardware power consumption calculation of system is utilized to show that system can use power consumption；Veneer power-on and power-off instruction can be obtained by power consumption according to described single board information and system。

Wherein, described complete machine power supply power consumption is the product of power available number and single power supply power consumption value, the reserved power consumption of described system be master control borad number with single master control borad power consumption number product, power board number and single power board power consumption number product and fan board number and single fan board power consumption number product and, described system online peripheral hardware power consumption is the summation of the consumed power consumption number of the equipment powered in place in system except master control borad, power board and fan board；That is: the single power supply power consumption value of complete machine power supply power consumption=power available number (including backup battery number) *；

Described system reserves power consumption=MPU (master control borad) number * MPU power consumption+SFU (power board) number * SFU power consumption+FAN (fan board) number * FAN power consumption；

The summation of the power consumption number that described system online peripheral hardware power consumption consumes equal to the equipment powered in place in the system except MPU, SFU, FAN；

Described system can use power consumption=described system Overall Power Consumption-described system to reserve the online peripheral hardware power consumption of power consumption-described system。

Consider newly inserted veneer and the situation of power supply variation, the described management method that the embodiment of the present invention provides provides two kinds of countermeasures, the first: the step of veneer power-on and power-off instruction can be obtained by power consumption particularly as follows: obtain the rated power of veneer to be powered on according to described single board information and system；If described rated power can use power consumption more than described system, it is thus achieved that the instruction that this veneer to be powered on does not power on；If described rated power is consuming time less than or equal to described system available work, it is thus achieved that the instruction of this Board Power up to be powered on, it may be assumed that

Obtain the required maximum power dissipation value of newly inserted veneer, the maximum available power consumption number that can be provided by with system compares, if the maximum available power consumption number that the required maximum power dissipation value of newly inserted veneer can be provided by less than system, then can decision-making go out to newly inserted veneer be powered up operation；Equally, if the maximum available power consumption number that can be provided by more than system of the required maximum power dissipation value of newly inserted veneer, then it is assumed that the power of system is not supported to be further added by veneer, therefore decision-making can go out and be not powered up operation to newly inserted veneer。

The second: the step of veneer power-on and power-off instruction can be obtained by power consumption particularly as follows: obtain the power capacity of the power supply that power information changes according to described single board information and system；The system after power supply changes can be calculated by power consumption according to described power capacity and described system and can use power consumption；System after changing according to described single board information and power supply can obtain veneer power-on and power-off instruction by power consumption。

Power supply variation includes reaching the standard grade, rolling off the production line and abnormal, when power information instruction power supply after the change is reached the standard grade, the system after changing according to described single board information and power supply can obtain the step of veneer power-on and power-off instruction by power consumption particularly as follows: obtain the rated power and the type that are in power-down state veneer in place；Search the system after described rated power changes less than or equal to described power supply and can use the power-down state veneer in place of power consumption；Search in the power-down state veneer in place obtained for the first time and again search the power-down state veneer in place that type priority level is higher；The power-down state veneer in place that power consumption difference is less can be used searching the system after lookup in the power-down state veneer in place obtained changes with power supply for the second time；Corresponding Board Power up instruction is obtained according to searching the power-down state veneer in place obtained for the third time。

Power information instruction power supply after the change rolls off the production line or exception and power supply change after system when can be negative value by power consumption, the system after changing according to described single board information and power supply can obtain the step of veneer power-on and power-off instruction by power consumption particularly as follows: obtain the rated power and the type that are in power-up state veneer in place；Search the system after described rated power changes be more than or equal to described power supply and can use the power-up state veneer in place of power consumption absolute value；Search in the power-up state veneer in place obtained for the first time and again search the power-up state veneer in place that type priority level is relatively low；The power-up state veneer in place that power consumption absolute value differences is less can be used searching the system after lookup in the power-up state veneer in place obtained changes with power supply for the second time；Electricity instruction under corresponding veneer is obtained according to searching the power-up state veneer in place obtained for the third time。

Power information instruction power supply after the change rolls off the production line or abnormal, but when the system after power supply change still can be nonnegative number by power consumption, then electrically operated under veneer need not being performed。

Above-mentioned about power supply variation countermeasure namely: obtain power supply information in place, and the state that power supply is in place is made a policy, when a certain group of power supply is newly reached the standard grade, recalculate system available horsepower, and compare with the required maximum power dissipation value already at power-down state veneer, if system available horsepower is more than the required maximum power dissipation value being in power-down state veneer, then can be in power-down state veneer and carried out power on operation；When a certain group of power supply off-line (roll off the production line or exception occur), the system available horsepower recalculated, can judge, by single board information, the veneer that type priority level is relatively low, power consumption is bigger simultaneously, under carrying out then can to type priority level is relatively low, power consumption is bigger veneer electrically operated, it is used for ensureing after power supply rolls off the production line or breaks down, when the power that cannot provide sufficient is supported, maintain other veneers on machine frame as far as possible properly functioning。

The management method the flow process below embodiment of the present invention provided is specifically described, as shown in Figure 2。

Step S01: obtain power information and single board information；Wherein, power information includes: state in place, communications status, running status, and single board information includes: the state in place of veneer, board type, veneer rated power。

Step S02: judge whether power supply breaks down, fault includes: power supply off-line, power supply communication abnormality, power supply operation exception。

Step S03: if in described step S02, power failure, then recalculate system available horsepower。

Step S04: when system available horsepower is negative value, system can select single board service disposal ability, and little (type priority level is relatively low, rated power is be more than or equal to system available horsepower absolute value and less with system available horsepower absolute value differences) veneer carry out lower electricity, ensured that other veneers can normal operation。

Step S05: if in described step S02, power supply does not break down, it may be judged whether have new power to reach the standard grade。After new power is reached the standard grade, system available horsepower increases。

Step S06: if in described step S05, have new power to reach the standard grade, recalculate system available power information。

Step S07: when system available horsepower is more than when being in the rated power of power-down state veneer in place on current frame device, system can select single board service disposal ability, and (type priority level is higher greatly, rated power is less than or equal to system available horsepower and less with system available horsepower difference) veneer power on, it is possible to make the throughput of machine frame increase。

Step S08: if in described step S05, it does not have new power is reached the standard grade, during power good operation work, system can wait reaching the standard grade of new veneer。

Step S09: when system has detected that new veneer is reached the standard grade, power-handling capability required for meeting computing system available horsepower value and this veneer of newly reaching the standard grade, when available horsepower is be more than or equal to the rated power of veneer of newly reaching the standard grade, as shown in step S11, Board Power up of newly reaching the standard grade to this；When available horsepower is less than the rated power of veneer of newly reaching the standard grade, as shown in step S10, do not allow this Board Power up of newly reaching the standard grade。

It should be noted that, board type includes master control borad type MPU, business board type PFU, power board type SFU and the big class of fan board type FAN tetra-, the type being in power-down state veneer in place mentioned in the embodiment of the present invention refers to the concrete model of veneer with the type being in power-up state veneer in place, and the model obtaining veneer is assured that the rated power of this veneer。

In order to solve above-mentioned technical problem, the embodiment of the present invention additionally provides the managing device of a kind of machine frame power supply, as it is shown on figure 3, include:

Monitoring module 1, is used for the single board information and the power information that obtain in whole machine frame；

Power management module 2, for obtaining veneer power-on and power-off instruction according to described single board information and power information；

Veneer supply module 3, for controlling the power-on and power-off of corresponding veneer according to described veneer power-on and power-off instruction。

The managing device of the described machine frame power supply that the embodiment of the present invention provides manages power supply by controlling the power-on and power-off of corresponding veneer according to the single board information in whole machine frame and power information, realize veneer with the adjustment of system power dissipation and power-on and power-off therewith, solve the problem owing to machine frame power deficiency causes machine frame fluctuation of service；And what be possible to prevent power supply crosses stream, controls some groove position and does not power on, it is possible to save power consumption for system, thus reaching the effect of system protection and energy-saving and environment friendly simultaneously。

Wherein, monitoring module includes Power Monitoring Unit and veneer monitoring module, and Power Monitoring Unit is used for monitoring and collecting power information, and passes to power management module；Veneer monitoring module is used for monitoring and collecting single board information, and passes to power management module。

Concrete, described power management module includes: data analysis submodule, for obtaining complete machine power supply power consumption, the reserved power consumption of system and the online peripheral hardware power consumption of system according to described single board information and power information, and the reserved power consumption of described complete machine power supply power consumption, system and the online peripheral hardware power consumption calculation of system is utilized to show that system can use power consumption；Decision-making submodule, for obtaining veneer power-on and power-off instruction by power consumption according to described single board information and system。

Wherein, described complete machine power supply power consumption is the product of power available number and single power supply power consumption value, the reserved power consumption of described system be master control borad number with single master control borad power consumption number product, power board number and single power board power consumption number product and fan board number and single fan board power consumption number product and, described system online peripheral hardware power consumption is the summation of the consumed power consumption number of the equipment powered in place in system except master control borad, power board and fan board。

Considering newly inserted veneer and the situation of power supply variation, the described managing device that the embodiment of the present invention provides provides two kinds of countermeasures, the first: described decision-making submodule is specifically for obtaining the rated power of veneer to be powered on；If described rated power can use power consumption more than described system, it is thus achieved that the instruction that this veneer to be powered on does not power on；If described rated power can use power consumption less than or equal to described system, it is thus achieved that the instruction of this Board Power up to be powered on。

The second: described decision-making submodule is specifically for obtaining the power capacity of the power supply that power information changes；The system after power supply changes can be calculated by power consumption according to described power capacity and described system and can use power consumption；System after changing according to described single board information and power supply can obtain veneer power-on and power-off instruction by power consumption。

Power supply variation includes reaching the standard grade, rolling off the production line and abnormal, and when power information instruction power supply after the change is reached the standard grade, described decision-making submodule is in rated power and the type of power-down state veneer in place specifically for obtaining；Search the system after described rated power changes less than or equal to described power supply and can use the power-down state veneer in place of power consumption；Search in the power-down state veneer in place obtained for the first time and again search the power-down state veneer in place that type priority level is higher；The power-down state veneer in place that power consumption difference is less can be used searching the system after lookup in the power-down state veneer in place obtained changes with power supply for the second time；Corresponding Board Power up instruction is obtained according to searching the power-down state veneer in place obtained for the third time。

Power information instruction power supply after the change rolls off the production line or exception and power supply change after system when can be negative value by power consumption, described decision-making submodule is in rated power and the type of power-up state veneer in place specifically for obtaining；Search the system after described rated power changes be more than or equal to described power supply and can use the power-up state veneer in place of power consumption absolute value；Search in the power-up state veneer in place obtained for the first time and again search the power-up state veneer in place that type priority level is relatively low；The power-up state veneer in place that power consumption absolute value differences is less can be used searching the system after lookup in the power-up state veneer in place obtained changes with power supply for the second time；Electricity instruction under corresponding veneer is obtained according to searching the power-up state veneer in place obtained for the third time。

In the machine frame Intelligent management of power device that the embodiment of the present invention provides, power management module can judge system power service condition according to the state of the state of power supply and veneer, and then may determine whether veneer is carried out power-on and power-off operation。When the available horsepower scarcity that power supply provides, it is possible to selective lower some veneer of electricity, be used for ensureing other online veneers can normal operation, in order to avoid occurring causing that because of power consumption over loading under complete machine, the situation of electricity occurs。It addition, the available power consumption provided when power supply is when critical point, if there being the veneer of big power consumption newly inserted, it is possible to optionally make these veneers not power on, it is also possible to avoid because not enough so that Overall Power Consumption and electricity under the complete machine that causes the situation of reaching the standard grade of new veneer occurs。Mutual by monitoring module and power management module, it is possible to achieve the power-on and power-off of intelligent management veneer, it is prevented that the mistake of power supply flows generation, and controls some groove position and do not power on, it is possible to save power consumption for system, thus reaching the benefit of system protection and environmental protection。

Monitoring module can be exist on master control borad or on other peripheral boards；May be located at a place or be distributed in multiple NE；Module partly or completely therein can also be selected as required to realize the present embodiment。

Each embodiment in the present embodiment can realize by the mode of hardware, can also embody with the form of software product, this software product on a computing device, can perform the function of the some or all of module of above-described embodiment by read-write storage device and the some instructions of execution。

It should be noted that the described of the management method of above-mentioned machine frame power supply realizes embodiment all suitable in the embodiment of the managing device of this machine frame power supply, identical technique effect also can be reached。

In order to solve above-mentioned technical problem, the embodiment of the present invention additionally provides a kind of machine frame system, including at least one veneer and at least one power supply, also include: the managing device of above-mentioned machine frame power supply, described veneer and power supply are all connected with the managing device of described machine frame power supply。

The machine frame the system below embodiment of the present invention provided is specifically described, as shown in Figure 4。

Managing device described in the embodiment of the present invention is applied in system, and system includes at least one power supply, master control borad 41 (managing device 4 that the embodiment of the present invention provides is located in master control borad 41) and an at least one piece of veneer。Below to veneer with veneer 1, veneer 2 43, power supply illustrates for power supply 1, power supply 2 45, power supply 3 46。

Power supply 1, power supply 2 45, power supply 3 46 are for being powered to equipment such as the master control borad on machine frame, veneer, fan boards。Described monitoring module 1, power management module 2 and veneer supply module 3 are present on master control borad 41。

Veneer 1, veneer 2 43 are connected with monitoring module 1 and veneer supply module 3 respectively；Power supply 1, power supply 2 45, power supply 3 46 are connected with monitoring module 1 respectively。

Monitoring module 1, for collecting veneer 1, the state in place of veneer 2 43, power-on and power-off state and board type, power supply source management module 2 uses；Collecting power supply 1, power supply 2 45, the state in place of power supply 3 46, communications status and running state information, also power supply source management module 2 uses。Veneer state in place includes: veneer state not in place, veneer power-down state in place, veneer power-up state in place。

Veneer supply module 3 is for performing the power-on and power-off instruction to veneer 1 and veneer 2 43 that power management module 2 draws。Power-on and power-off instruction includes: by electricity instruction under veneer with by Board Power up instruction。

Power management module 2, for the single board information obtained according to monitoring module 1 and power information, according to single board information and power information computing system power information, and decision-making goes out the execution action to veneer, then this decision-making is issued to veneer supply module 3, is finally performed the power-on and power-off action of veneer 1 and veneer 2 43 by veneer supply module 3。

Wherein, the described of the managing device of above-mentioned machine frame power supply realizes embodiment all suitable in the embodiment of this machine frame system, also can reach identical technique effect。

Above-described is the preferred embodiment of the present invention; should be understood that the ordinary person for the art; without departing under principle premise of the present invention, it is also possible to making some improvements and modifications, these improvements and modifications also should be regarded as protection scope of the present invention。

Claims (12)

1. the management method of a machine frame power supply, it is characterised in that including:

Obtain the single board information in whole machine frame and power information；

Veneer power-on and power-off instruction is obtained according to described single board information and power information；

The power-on and power-off of corresponding veneer are controlled according to described veneer power-on and power-off instruction。

2. management method as claimed in claim 1, it is characterised in that the step obtaining veneer power-on and power-off instruction according to described single board information and power information includes:

Complete machine power supply power consumption, the reserved power consumption of system and the online peripheral hardware power consumption of system is obtained according to described single board information and power information；

The reserved power consumption of described complete machine power supply power consumption, system and the online peripheral hardware power consumption calculation of system is utilized to show that system can use power consumption；

Veneer power-on and power-off instruction can be obtained by power consumption according to described single board information and system。

3. management method as claimed in claim 2, it is characterized in that, described complete machine power supply power consumption is the product of power available number and single power supply power consumption value, the reserved power consumption of described system be master control borad number with single master control borad power consumption number product, power board number and single power board power consumption number product and fan board number and single fan board power consumption number product and, described system online peripheral hardware power consumption is the summation of the consumed power consumption number of the equipment powered in place in system except master control borad, power board and fan board。

4. management method as claimed in claim 2, it is characterised in that according to described single board information and system can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the rated power of veneer to be powered on；

If described rated power can use power consumption more than described system, it is thus achieved that the instruction that this veneer to be powered on does not power on；

If described rated power is consuming time less than or equal to described system available work, it is thus achieved that the instruction of this Board Power up to be powered on。

5. management method as claimed in claim 2, it is characterised in that according to described single board information and system can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the power capacity of the power supply that power information changes；

The system after power supply changes can be calculated by power consumption according to described power capacity and described system and can use power consumption；

System after changing according to described single board information and power supply can obtain veneer power-on and power-off instruction by power consumption。

6. management method as claimed in claim 5, it is characterised in that when power information instruction power supply after the change is reached the standard grade, the system after changing according to described single board information and power supply can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the rated power and the type that are in power-down state veneer in place；

Search the system after described rated power changes less than or equal to described power supply and can use the power-down state veneer in place of power consumption；

Search in the power-down state veneer in place obtained for the first time and again search the power-down state veneer in place that type priority level is higher；

The power-down state veneer in place that power consumption difference is less can be used searching the system after lookup in the power-down state veneer in place obtained changes with power supply for the second time；

Corresponding Board Power up instruction is obtained according to searching the power-down state veneer in place obtained for the third time。

7. management method as claimed in claim 5, it is characterized in that, power information instruction power supply after the change rolls off the production line or exception and power supply change after system when can be negative value by power consumption, the system after changing according to described single board information and power supply can with power consumption obtain veneer power-on and power-off instruction step particularly as follows:

Obtain the rated power and the type that are in power-up state veneer in place；

Search the system after described rated power changes be more than or equal to described power supply and can use the power-up state veneer in place of power consumption absolute value；

Search in the power-up state veneer in place obtained for the first time and again search the power-up state veneer in place that type priority level is relatively low；

The power-up state veneer in place that power consumption absolute value differences is less can be used searching the system after lookup in the power-up state veneer in place obtained changes with power supply for the second time；

Electricity instruction under corresponding veneer is obtained according to searching the power-up state veneer in place obtained for the third time。

8. the managing device of a machine frame power supply, it is characterised in that including:

Monitoring module, is used for the single board information and the power information that obtain in whole machine frame；

Power management module, for obtaining veneer power-on and power-off instruction according to described single board information and power information；

Veneer supply module, for controlling the power-on and power-off of corresponding veneer according to described veneer power-on and power-off instruction。

9. managing device as claimed in claim 8, it is characterised in that described power management module includes:

Data analysis submodule, for obtaining complete machine power supply power consumption, the reserved power consumption of system and the online peripheral hardware power consumption of system according to described single board information and power information, and the reserved power consumption of described complete machine power supply power consumption, system and the online peripheral hardware power consumption calculation of system is utilized to show that system can use power consumption；

Decision-making submodule, for obtaining veneer power-on and power-off instruction by power consumption according to described single board information and system。

10. managing device as claimed in claim 9, it is characterised in that described decision-making submodule is specifically for obtaining the rated power of veneer to be powered on；If described rated power can use power consumption more than described system, it is thus achieved that the instruction that this veneer to be powered on does not power on；If described rated power can use power consumption less than or equal to described system, it is thus achieved that the instruction of this Board Power up to be powered on。

11. managing device as claimed in claim 9, it is characterised in that described decision-making submodule is specifically for obtaining the power capacity of the power supply that power information changes；The system after power supply changes can be calculated by power consumption according to described power capacity and described system and can use power consumption；System after changing according to described single board information and power supply can obtain veneer power-on and power-off instruction by power consumption。

12. a machine frame system, including at least one veneer and at least one power supply, it is characterised in that also include: the managing device of the machine frame power supply as described in any one of claim 8 to 11, described veneer and power supply are all connected with the managing device of described machine frame power supply。