CN101662370A - Dormancy/wakening method for server and server with dormancy/wakening function - Google Patents

Abstract

The embodiment of the invention provides a dormancy method for a server. The server comprises a system management board and at least one single board, wherein each single board comprises an intelligent management controller. The dormancy method for the server comprises that: the system management board receives a dormancy signal transmitted by a remote host computer; and the system management board transmits the dormancy signal to the intelligent management controller of the corresponding single board so as to cause the intelligent management controller of the single board to control the single board to enter a dormant state according to the dormancy signal. The embodiment of the invention also provides a wakening method for the server, and the server with a dormancy/wakening function. Theintelligent management board of the single board controls the single board to enter the dormant/wakened state according to the received dormancy/wakening signal, so the embodiment of the invention realizes the dormancy/wakening function of the server, and can make the single board of the server consume less electric energy when the load is relatively lower, effectively save the energy consumption, and when the traffic is boosted, quickly waken the single board of the server to share the load.

Description

Server sleeping/waking method and server with sleeping/waking function

Technical field

The present invention relates to the server technology field, the server that relates in particular to a kind of server sleeping/waking method and have the sleeping/waking function.

Background technology

In December, 1996, draft the ACPI standard jointly by Hewlett-Packard (HP), Intel (Intel), Microsoft (Microsoft), phoenix (Phoenix), five companies of Toshiba (Toshiba), the APM power management standard before replacing.APM is the function that realizes power management in the aspect of BIOS, and ACPI realizes power management in the operating system aspect.In the ACPI standard system running state is subdivided into six classes: S0/S1/S2/S3/S4/S5, system power dissipation descends successively.

Usually said S3 state promptly suspends to internal memory (Suspend to RAM, STR) state.As its name suggests, STR enters operating state data before the STR to system to be stored in the internal memory and to go.Under the STR state, power supply still continues as the most necessary power devices such as internal memory, and internal memory enters self-refresh mode and do not lose to guarantee data, and other equipment all are in and close power-down state, and the power consumption of system is extremely low.In case press power switch button, system just is waken up, at once reading of data and return to operating state before the STR from internal memory.The read or write speed of internal memory is exceedingly fast, thus we to feel to enter and leave the time that the STR state spent only be several seconds.

The S1/S2 state also is a sleep state, but that system power dissipation descends is obvious inadequately, and S4 is exactly STD (suspending to hard disk) and the principle of STR is duplicate, and only data are to be kept in the hard disk.Since the read or write speed of hard disk than internal memory slowly many, use therefore that also not have STR so fast.S0 is a normal operating condition, does not carry out any energy-conservation; S5 is our usually said shutdown, and power supply only provides the system standby power supply.

In the notebook field, manufacturer is in order to increase the lasting service time of battery, so the S3 strategy is most widely used in this field, the user can be by the power management part of setting operation system, under the situation of notebook free time, enter the S3 state and carry out energy-conservation.In the desktop computer field, the S3 function also is to be provided as a kind of standard feature.And in this special dimension of server, it is generally acknowledged that server is to want 24 hours continually to provide service, so can not enter resting state, therefore big multiserver is not supported the S3 function.But increase along with operation cost, the power consumption of server also becomes (the Internet Service Provider of ISP day by day, ISP), (the Internet Data Center of Internet data center, bigger cost expense in dealer's the operation costs structure such as IDC), this also is why today, new server, processor-server of releasing all emphasized the reason of power saving.

Summary of the invention

The server that the embodiment of the invention provides a kind of server sleeping/waking method and has the sleeping/waking function can be realized the sleeping/waking function of server, effectively saves electric energy.

The embodiment of the invention provides a kind of server dormancy method, and described server comprises system management unit and at least one veneer, and each veneer comprises intelligent management controller, and described server dormancy method comprises:

The sleep signal that described system management unit receiving remote main frame sends;

Described system management unit is sent to the intelligent management controller of corresponding veneer with described sleep signal, so that the intelligent management controller of described veneer enters resting state according to described sleep signal control veneer.

The embodiment of the invention provides a kind of server awakening method, and described server comprises system management unit and at least one veneer, and each veneer comprises intelligent management controller, and described server awakening method comprises:

The wake-up signal that described system management unit receiving remote main frame sends;

Described system management unit is sent to the intelligent management controller of corresponding veneer with described wake-up signal, so that the intelligent management controller of described veneer enters wake-up states according to described wake-up signal control veneer.

The embodiment of the invention provides a kind of server with sleeping/waking function, comprise system management unit and at least one veneer, each veneer comprises intelligent management controller and sleeping/waking device, described system management unit is used for the sleep signal that the receiving remote main frame sends, and described sleep signal is sent to the intelligent management controller of corresponding veneer, after the intelligent management controller of described veneer received described sleep signal, the sleeping/waking device of controlling described veneer made veneer enter resting state.

The embodiment of the invention makes veneer enter resting state by the intelligent management controller of veneer according to the sleep signal that receives, and has realized the sleep mode of server, can make the veneer of server consume less electric energy when load is low, effectively saves energy consumption; The embodiment of the invention makes veneer enter wake-up states by the intelligent management controller of veneer according to the wake-up signal that receives in addition, the veneer of server is changed over to normally from resting state as required to power on, when traffic carrying capacity rises, wake servers veneer load sharing rapidly.

Description of drawings

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

Fig. 1 is the structural representation of embodiment of the invention server management system;

Fig. 2 is the schematic flow sheet of the embodiment of the invention one server dormancy method;

Fig. 3 is the schematic flow sheet of the embodiment of the invention two server dormancy methods;

Fig. 4 is the schematic flow sheet of the embodiment of the invention one server awakening method;

Fig. 5 is the schematic flow sheet of the embodiment of the invention two server awakening methods;

Fig. 6 is the structural representation that the embodiment of the invention one has the server of sleeping/waking function;

Fig. 7 is the structural representation that the embodiment of the invention two has the server of sleeping/waking function.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with drawings and the embodiments.Should be appreciated that embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

Please refer to Fig. 1, be the structural representation of embodiment of the invention server management system, described server management system comprises distance host 1 and server 3, and the embodiment of the invention is that example describes with ATCA IA frame serverPC.

Described server 3 comprises system management unit 32 and at least one veneer 34.Embodiment of the invention system management unit 32 comprises two active and standby each other Shelf management modules (CMM1, CMM2), and each Shelf management module can be managed all veneers 34 in the machine frame separately.Described distance host 1 is connected with described system management unit 32 by the Internet 2, and the transmission of the control command of 1 pair of described veneer 34 of described distance host realizes by described system management unit 32.

Each veneer 34 comprises intelligent platform management controller (Intelligent Platform ManagementController, IPMC) 342, intelligent platform management controller 342 is supporting bodies of intelligent platform management function in the ATCA blade server, (Intelligent PlatformManagement Bus IPMB) 4 communicates with the Shelf management module of described system management unit 32 by Intelligent Platform Management Bus for it.IPMC mainly finishes supervision, control and the management of various key hardware resources on ATCA veneer or other machine frame assemblies, comprise veneer or module effective payload part state-detection, veneer temperature and voltage detecting, hot plug management, Field Replaceable Unit (Field Replaceable Unit, FRU) information obtain, alarm management, power management, reset mode, transducer and incident management, log management, E-Keying (electronic switch) management etc.

Please common reference Fig. 2, be the schematic flow sheet of the embodiment of the invention one server dormancy method, its step comprises:

Step S10: the sleep signal that system management unit receiving remote main frame sends.Concrete, distance host is by the Internet (Internet) login management system, the load that inquires some veneer is hanged down when needing to start dormancy, send the sleep signal of corresponding veneer to system management unit, the sleep signal of the corresponding veneer that described system management unit sends by the Internet (Internet) receiving remote main frame.

Step S12: system management unit is sent to described sleep signal the intelligent management controller of corresponding veneer.Concrete, system management unit is sent to described sleep signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.The embodiment of the invention is that example describes with the Intelligent Platform Management Bus, but is not limited to Intelligent Platform Management Bus, also can be to be implemented in other buses of carrying out the signal transmission between the intelligent management controller of system management unit and veneer.

Step S14: the intelligent management controller of veneer enters resting state according to described sleep signal control veneer.Concrete, after the intelligent management controller of veneer received described sleep signal, the PB pin of south bridge that can be by enabling veneer produced the dormancy indication to veneer, and the main system of veneer is descended electric dormancy according to traditional S3 sleep mode then.

The embodiment of the invention makes veneer enter resting state by the intelligent management controller of veneer according to the sleep signal that receives, and has realized the sleep mode of server, can make the veneer of server consume less electric energy when load is low, effectively saves energy consumption.

Please refer to Fig. 3, be the schematic flow sheet of the embodiment of the invention two server dormancy methods, its step comprises:

Step S20: the veneer load state is checked by distance host login management system.Concrete, distance host is by the Internet (Internet) login management system, the load state of Query Board.

Step S21: the load that judges whether veneer is lower.Specifically how judging lowly can have several different methods, as default payload traffic threshold value, and for example 10%, be judged as load if the load of veneer does not reach this threshold value lower; Also can judge whether the load of veneer is lower according to the occupancy situation of CPU or internal memory.

Step S22: if the judged result of step S21 is to have the load of at least one veneer lower, then the distance host transmitting order to lower levels to other veneers, guarantees the normal operation of single board service with the business migration of described low load veneer; If be judged as otherwise return step S20.

Step S23: distance host issues sleep signal;

Step S24: the sleep signal that system management unit receiving remote main frame sends.Concrete, described system management unit is by the sleep signal of the corresponding veneer of the Internet (Internet) receiving remote main frame transmission.

Step S25: system management unit is sent to described sleep signal the intelligent management controller of corresponding veneer.Concrete, system management unit is sent to described sleep signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.The embodiment of the invention is that example describes with the Intelligent Platform Management Bus, but is not limited to Intelligent Platform Management Bus, also can be to be implemented in other buses of carrying out the signal transmission between the intelligent management controller of system management unit and veneer.

Step S26: the intelligent management controller of veneer enters resting state according to described sleep signal control veneer.Concrete, after the intelligent management controller of veneer received described sleep signal, the PB pin of south bridge that can be by enabling veneer produced the dormancy indication to veneer, and the main system of veneer is descended electric dormancy according to traditional S3 sleep mode then.

Step S27: the corresponding veneer of intelligent management controller state of a control indicating member indication of veneer enters resting state.Because the main system of veneer is before entering dormancy, south bridge can send a S5 signal (the following signal of telecommunication), if according to existing processing mode, the intelligent management controller of veneer can think that main system down after detecting the S5 signal, and then indicate the various warning of electricity down indicator lights all to light, give user's indication this moment is system closedown, and according to the not shutdown in fact of the veneer in the server of the embodiment of the invention, has just entered resting state.The intelligent management controller of embodiment of the invention veneer is when detecting the S5 signal, also to detect memory voltage (when advancing the S3 park mode owing to system, internal memory enters self-refresh mode, and charged), if voltage is normal, illustrative system is not to descend the electricity operation, but carry out the S3 dormancy, thereby control corresponding state indicating member, as indicator light, the corresponding veneer of indication enters resting state.

The embodiment of the invention makes veneer enter resting state by the intelligent management controller of veneer according to the sleep signal that receives, and has realized the sleep mode of server, can make the veneer of server consume less electric energy when load is low, effectively saves energy consumption.In addition, the business of the veneer that load is lower is moved in advance before distance host issues sleep signal, in the time of can guaranteeing that server carries out dormancy not traffic affecting normally move.Further, veneer is after entering resting state, and the intelligent management controller of veneer enters resting state in conjunction with the corresponding veneer of detection indication of S5 signal and memory voltage, can avoid the wrong report of system mode, make the user accurately know the state of veneer, be convenient to the management of server.

Please refer to Fig. 4, be the schematic flow sheet of the embodiment of the invention one server awakening method, its step comprises:

Step S40: the wake-up signal that system management unit receiving remote main frame sends.Concrete, distance host is by the Internet (Internet) login management system, the load that inquires some veneer is higher and when having at least a veneer to handle resting state, send the corresponding wake-up signal that is in the resting state veneer to system management unit, the correspondence that described system management unit sends by the Internet (Internet) receiving remote main frame is in the wake-up signal of resting state veneer.

Step S42: system management unit is sent to described wake-up signal the intelligent management controller of corresponding veneer.Concrete, system management unit is sent to described wake-up signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.The embodiment of the invention is that example describes with the Intelligent Platform Management Bus, but is not limited to Intelligent Platform Management Bus, also can be to be implemented in other buses of carrying out the signal transmission between the intelligent management controller of system management unit and veneer.

Step S44: the intelligent management controller of veneer enters wake-up states according to described wake-up signal control veneer, promptly normal power-up state.Concrete, after the intelligent management controller of veneer received described wake-up signal, the PB pin of south bridge that can be by enabling veneer produced veneer and to wake indication up, and the main system of veneer is waken the mode operation that powers on up according to traditional S3 then.

The embodiment of the invention makes veneer enter wake-up states by the intelligent management controller of veneer according to the wake-up signal that receives, realized the arousal function that the server veneer wakes up from resting state, the veneer of server is changed over to normally from resting state as required to power on, when traffic carrying capacity rises, wake servers veneer load sharing rapidly.

Please refer to Fig. 5, be the schematic flow sheet of the embodiment of the invention two server awakening methods, its step comprises:

Step S50: the veneer load state is checked by distance host login management system.Concrete, distance host is by the Internet (Internet) login management system, the load state of Query Board.

Step S51: judge whether the load too high of veneer and the veneer that is in resting state is arranged.How to judge that specifically load too high can have several different methods, as default payload traffic threshold value, for example 70%, if the load of veneer surpasses this threshold value then is judged as load too high; Also can judge whether the load of veneer is too high according to the occupancy situation of CPU or internal memory; Whether have the veneer that is in resting state to report according to the state of veneer knows.

Step S52: if the judged result of step S52 is for being, then distance host issues wake-up signal, and described wake-up signal changes wake-up states over to for the veneer that notice is in resting state, i.e. normal power-up state; If be judged as otherwise return step S50.

Step S53: the wake-up signal that system management unit receiving remote main frame sends.Concrete, the correspondence that described system management unit sends by the Internet (Internet) receiving remote main frame is in the wake-up signal of resting state veneer.

Step S54: system management unit is sent to described wake-up signal the intelligent management controller of corresponding veneer.Concrete, system management unit is sent to described wake-up signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.The embodiment of the invention is that example describes with the Intelligent Platform Management Bus, but is not limited to Intelligent Platform Management Bus, also can be to be implemented in other buses of carrying out the signal transmission between the intelligent management controller of system management unit and veneer.

Step S55: the intelligent management controller of veneer enters wake-up states according to described wake-up signal control veneer, promptly normal power-up state.Concrete, after the intelligent management controller of veneer received described wake-up signal, the PB pin of south bridge that can be by enabling veneer produced veneer and to wake indication up, and the main system of veneer is waken the mode operation that powers on up according to traditional S3 then.

Step S56: the corresponding veneer of intelligent management controller state of a control indicating member indication of veneer enters wake-up states.

Step S57: the distance host transmitting order to lower levels to the veneer that wakes up, guarantees the normal operation of single board service with the business migration of described load too high veneer.

The embodiment of the invention makes veneer enter wake-up states by the intelligent management controller of veneer according to the wake-up signal that receives, realized the arousal function that the server veneer wakes up from resting state, the veneer of server is changed over to normally from resting state as required to power on, when traffic carrying capacity rises, wake servers veneer load sharing rapidly.In addition, after veneer woke up, transmitting order to lower levels to the veneer that wakes up, can guarantee the veneer equally loaded of server with the business migration of described load too high veneer, guaranteed professional normal operation.

Please refer to Fig. 6, the structural representation that has the server of sleeping/waking function for the embodiment of the invention one, described server with sleeping/waking function comprises: system management unit 60 and at least one veneer 70, each veneer 70 comprises intelligent management controller (IPMC) 72 and sleeping/waking device 74.The described intelligent management controller 72 of the embodiment of the invention is connected with described system management unit 60 by Intelligent Platform Management Bus.

Described system management unit 60 is used for the sleeping/waking signal that the receiving remote main frame sends, and described sleeping/waking signal is sent to the intelligent management controller 74 of corresponding veneer 70.

Concrete, distance host is by the Internet (Internet) login management system, and the load that inquires some veneer 70 (or a certain veneer 70) is hanged down when needing to start dormancy, sends the sleep signal of corresponding veneer to described system management unit 60; Distance host is by the Internet (Internet) login management system, and the load that inquires some veneer is higher and when having at least a veneer to handle resting state, send the corresponding wake-up signal that is in the resting state veneer to system management unit.Described system management unit 60 is by the sleeping/waking signal of the corresponding veneer of the Internet (Internet) receiving remote main frame transmission.Described system management unit 60 is sent to described sleeping/waking signal by Intelligent Platform Management Bus the intelligent management controller 74 of corresponding veneer 70.The embodiment of the invention is that example describes with the Intelligent Platform Management Bus, but is not limited to Intelligent Platform Management Bus, also can be that 74 of intelligent management controllers that are implemented in system management unit 60 and veneer 70 carry out other buses that signal transmits.

After the intelligent management controller 74 of described veneer 70 received described sleeping/waking signal, the sleeping/waking device 74 of control veneer 70 made veneer enter the sleeping/waking state.Described sleeping/waking device 74 can comprise the South Bridge chip of veneer 70, during specific implementation, described intelligent management controller 74 enables the PB pin of the South Bridge chip of veneer 70, veneer 70 is produced the sleeping/waking indication, and the main system of veneer is descended electric dormancy according to traditional S3 sleeping/waking mode or is normally powered on then.

The intelligent management controller 72 of the server veneer 70 of the embodiment of the invention makes veneer 70 enter the sleeping/waking state according to the described sleeping/waking device 74 of sleeping/waking signal controlling that receives, realized the sleeping/waking function of server, can make the veneer 70 of server when load is low, consume less electric energy, effectively save energy consumption; When traffic carrying capacity rises, wake servers veneer load sharing rapidly.

Please refer to Fig. 7, the structural representation that has the server of sleeping/waking function for the embodiment of the invention two, itself and the embodiment of the invention one have the structural similarity of the server of sleeping/waking function, and its difference is that the described server with sleeping/waking function of the embodiment of the invention also comprises the status display unit 80 of corresponding each veneer.Specifically describe as follows:

Described server with sleeping/waking function comprises system management unit 60, at least one veneer 70 and status display unit 80, and each veneer 70 comprises intelligent management controller (IPMC) 72 and sleeping/waking device 74.The described intelligent management controller 72 of the embodiment of the invention is connected with described system management unit 60 by Intelligent Platform Management Bus.

The intelligent management controller 72 of veneer 70 enters the sleeping/waking state by controlling described status display unit 80 showing veneers 70 after control sleeping/waking device 74 makes veneer 70 enter the sleeping/waking state.If control sleeping/waking device 74 makes veneer 70 enter resting state, because the main system of veneer 70 is before entering dormancy, south bridge can send a S5 signal (the following signal of telecommunication), if according to existing processing mode, the intelligent management controller 72 of veneer 70 can think that main system down after detecting the S5 signal, and then indicate the various warning of electricity down indicator lights all to light, give user's indication this moment is system closedown, and, just entered resting state according to the veneer in the server of the embodiment of the invention 70 not shutdown in fact.The intelligent management controller 72 of embodiment of the invention veneer 70 is when detecting the S5 signal, also to detect memory voltage (when advancing the S3 park mode owing to system, internal memory enters self-refresh mode, and charged), if voltage is normal, illustrative system is not to descend the electricity operation, but carry out the S3 dormancy, thereby control described status display unit 80, as the following electricity warning indicator light of corresponding veneer is not lighted, thereby the corresponding veneer of indication enters resting state.If control sleeping/waking device 74 makes veneer 70 enter wake-up states, then intelligent management controller 72 enters wake-up states by controlling described status display unit 80 showing veneers 70.

The intelligent management controller 72 of the server veneer 70 of the embodiment of the invention makes veneer 70 enter the sleeping/waking state according to the sleeping/waking signal that receives, realized the sleeping/waking function of server, can make the veneer 70 of server when load is low, consume less electric energy, effectively save energy consumption; When traffic carrying capacity rises, wake servers veneer load sharing rapidly.In addition, veneer 70 is after entering resting state, the intelligent management controller 72 of veneer 70 enters resting state in conjunction with the detection of S5 signal and memory voltage by controlling the corresponding veneer 70 of described status display unit 80 indications, can avoid the wrong report of system mode, make the user accurately know the state of veneer, be convenient to the management of server.

One of ordinary skill in the art will appreciate that all or part of step that realizes in the foregoing description method is to instruct relevant hardware to finish by program, described program can be stored in the computer read/write memory medium, and described storage medium is ROM/RAM, magnetic disc, CD etc.

The above; only for the preferable embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (15)

1, a kind of server dormancy method, described server comprises system management unit and at least one veneer, and each veneer comprises intelligent management controller, and described server dormancy method comprises:

The sleep signal that described system management unit receiving remote main frame sends;

Described system management unit is sent to the intelligent management controller of corresponding veneer with described sleep signal, so that the intelligent management controller of described veneer enters resting state according to described sleep signal control veneer.

2, the method for claim 1 is characterized in that: described system management unit is sent to described sleep signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.

3, the method for claim 1 is characterized in that: also comprise step before the sleep signal that described system management unit receiving remote main frame sends:

The veneer load state is checked by distance host login management system;

The load that judges whether veneer is lower;

Issue described sleep signal if judge the low then distance host of the load that veneer is arranged.

4, the method for claim 1 is characterized in that: distance host also comprises step before issuing described sleep signal: the distance host transmitting order to lower levels arrives other veneers with the business migration of described low load veneer.

5, the method for claim 1, it is characterized in that: described server also comprises the state indicating member of corresponding each veneer, and the intelligent management controller control veneer of described veneer also comprises step after entering resting state: the corresponding veneer of intelligent management controller state of a control indicating member indication of described veneer enters resting state.

6, a kind of server awakening method, described server comprises system management unit and at least one veneer, and each veneer comprises intelligent management controller, and described server awakening method comprises:

The wake-up signal that described system management unit receiving remote main frame sends;

Described system management unit is sent to the intelligent management controller of corresponding veneer with described wake-up signal, so that the intelligent management controller of described veneer enters wake-up states according to described wake-up signal control veneer.

7, method as claimed in claim 6 is characterized in that: described system management unit is sent to described wake-up signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.

8, method as claimed in claim 6 is characterized in that: also comprise step before the wake-up signal that described system management unit receiving remote main frame sends:

The veneer load state is checked by distance host login management system;

Judge whether the load too high of veneer and the veneer that is in resting state is arranged;

If be judged as is that then distance host issues described wake-up signal.

9, method as claimed in claim 6, it is characterized in that: described server also comprises the state indicating member of corresponding each veneer, and the intelligent management controller control veneer of described veneer also comprises step after entering wake-up states: the corresponding veneer of intelligent management controller state of a control indicating member indication of described veneer enters wake-up states.

10, method as claimed in claim 6 is characterized in that: the intelligent management controller of veneer control veneer enters and also comprises step behind the wake-up states: the distance host transmitting order to lower levels with the business migration of described load too high veneer to the veneer that wakes up.

11, a kind of server with sleeping/waking function, comprise system management unit and at least one veneer, each veneer comprises intelligent management controller and sleeping/waking device, described system management unit is used for the sleep signal that the receiving remote main frame sends, and described sleep signal is sent to the intelligent management controller of corresponding veneer, after the intelligent management controller of described veneer received described sleep signal, the sleeping/waking device of controlling described veneer made veneer enter the sleeping/waking state.

12, server as claimed in claim 11 is characterized in that: described system management unit is sent to described sleeping/waking signal by Intelligent Platform Management Bus the intelligent management controller of corresponding veneer.

13, server as claimed in claim 11, it is characterized in that: described sleeping/waking device comprises South Bridge chip, and the PB pin that described intelligent management controller enables described South Bridge chip according to described sleep signal makes the main system of veneer descend electric dormancy or normally power on.

14, server as claimed in claim 11, it is characterized in that: described server also comprises the status display unit of corresponding each veneer, after the sleeping/waking device that the intelligent management controller of described veneer is controlled described veneer makes veneer enter resting state, control the corresponding veneer of described state indicating member indication and enter the sleeping/waking state.

15, server as claimed in claim 14, it is characterized in that: described intelligent management controller is after detecting South Bridge chip and sending the S5 signal, whether normal, if memory voltage is normal, then controls the corresponding veneer of described state indicating member indication and enter resting state if detecting memory voltage.

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