CN106557405A - server cabinet monitoring method - Google Patents
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- CN106557405A CN106557405A CN201510631347.0A CN201510631347A CN106557405A CN 106557405 A CN106557405 A CN 106557405A CN 201510631347 A CN201510631347 A CN 201510631347A CN 106557405 A CN106557405 A CN 106557405A
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Abstract
The present invention provides a kind of server cabinet monitoring method and includes:Initialization equipment cabinet management controller, rack backboard and baseboard management controller;Equipment cabinet management controller sends an initial message after the completion of initial to the rack backboard for being connected;Rack backboard sends another initial message after the completion of initialization to the baseboard management controller for being connected;Each baseboard management controller regularly transmits the real-time monitoring parameter of its server incessantly to the rack backboard for being connected from initial message is received;And rack backboard is from the initial message that equipment cabinet management controller sends is received, timing transmission real-time monitoring parameter is to equipment cabinet management controller incessantly.Thereby, for the frequent state parameter for sending does not adopt the mode of poll, and the time for collecting data is saved only in the way of one-way transmission, is reacted according to data with profit in real time.
Description
Technical field
The present invention is, particularly a kind of server cabinet monitoring method related to server cabinet.
Background technology
Because of the progress of the maturation and the network technology of computer industry, server cabinet has been commonly used for all conglomeraties, such as telecommunications industry, banking, game industry etc..Server cabinet can accommodate multiple server nodes.Each server node may each be the computer system of an independent work, comprising more than one central processing unit, mainboard, internal memory, hard disk etc..However, this little server node is intensive being seated in server cabinet, it is necessary to pay special attention to radiating and power management.
The general practice is that server cabinet is provided with equipment cabinet management controller(Rack Management Controller, RMC), multiple server nodes(Node)Same rack backboard is connected to then(Rack Backplane, RBP), multiple rack backboards are then connected to equipment cabinet management controller.When this little server node is during running, equipment cabinet management controller can be through rack backboard one by one to its parameters instantly of each server node poll(Such as central processor temperature, voltage etc.), control mode is determined further according to collected parameter afterwards(Such as control the faster rotational speed of fan or slow down).However, aforementioned, one by one to during each server node poll, equipment cabinet management controller not only needs first to send request, must also the time-consuming parameter for waiting each server node to reply one by one;Additionally, if server node works as machine or because other factors cannot return parameter, equipment cabinet management controller must also wait one section it is overtime(Time out)Time.So get off, whole polls once at least need the time for expending several minutes.Importantly, equipment cabinet management controller be according to several minutes before data being controlled, it is impossible to processed according to real-time rack state, therefore equipment cabinet management controller just cannot be improved in response to various situations in real time and rapidly in real time.
The content of the invention
Present invention is primarily targeted at providing a kind of server cabinet monitoring method, which does not adopt the mode of poll for the frequent state parameter for sending, and the time for collecting data is saved only in the way of one-way transmission, is reacted according to data with profit in real time.
It is that, up to above-mentioned purpose, the present invention provides a kind of server cabinet monitoring method, it is adaptable to server cabinet.Server cabinet includes equipment cabinet management controller, some servers and at least rack backboard being connected between equipment cabinet management controller and server.Each server includes a baseboard management controller.
Server cabinet monitoring method is included:3rd processor of the first processor, the second processing device of rack backboard and baseboard management controller of initialization equipment cabinet management controller;Equipment cabinet management controller sends the second communication interface of an initial message to the rack backboard for being connected after the completion of initial via the first communication interface;Rack backboard sends the 3rd communication interface of another initial message to the baseboard management controller for being connected after the completion of initialization via the 4th communication interface;Each baseboard management controller transmits the 4th communication interface of the real-time monitoring parameter of its server to the rack backboard for being connected from the initial message that rack backboard sends is received incessantly via the timing of the 3rd communication interface;And rack backboard is from the initial message that equipment cabinet management controller sends is received, first communication interface of real-time monitoring parameter to equipment cabinet management controller is transmitted incessantly via the timing of the second communication interface.Thereby, rack backboard only needs to passively receive the real-time monitoring parameter that server is constantly transmitted, and eliminates to gradually server the process of request that sends, and can shorten the time for collecting parameter.In this, real-time monitoring parameter can be included:The electronic device temperature value of server, the electronic device magnitude of voltage of server, the power consumption of server or ambient temperature.
Preferably, rack backboard can perform a control command according to the real-time monitoring parameter for being received.Accordingly, can be controlled in response to the state real time reaction of server in real time.
Preferably, the step of rack backboard performs control command according to the real-time monitoring parameter for being received includes:Second processing device calculates a rotation speed of the fan according to the real-time monitoring parameter for being received;And second processing device performs control command the operating of a fan group is controlled according to rotation speed of the fan.
Preferably, real-time monitoring parameter can divide into the first level and the second level, and aforementioned server rack monitoring method can more be included:The second processing device of rack backboard filters received real-time monitoring parameter according to the first level and the second level, and the real-time monitoring parameter of the second level is sent via the second communication interface to the first communication interface of equipment cabinet management controller;And the first processor of equipment cabinet management controller performs an action command according to the real-time monitoring parameter of the second level for being received.In this, the second processing device of rack backboard can perform control command according to the real-time monitoring parameter of the first level.By administration by different levels, rack backboard is allowed to be responsible for the management and control of the first level specially(The radiating management of the server of such as affiliated rack backplane region), and allow equipment cabinet management controller to be responsible for the management and control of the second level(The radiating management of such as integrating cabinet).
Preferably, the server cabinet monitoring method can also be included:The second processing device of rack backboard transmits the first communication interface of a logout to equipment cabinet management controller via the second communication interface after control command is performed;And the first processor of equipment cabinet management controller stores logout to a bin.Equipment cabinet management controller only needs to store the event result that carried out of the aforementioned rack backboard in response to the first level.
Preferably, the real-time monitoring parameter of the second level can be operation condition of server(Such as frequency reducing or shutdown), the action command is control corresponding to frequency reducing or the output of the power-supply unit of the server of shutdown.
Preferably, each server settings of rack backboard correspondence have a proof cycle, to check whether each server still persistently sends real-time monitoring parameter according to proof cycle.
Compared with prior art, server cabinet monitoring method provided in an embodiment of the present invention does not adopt the mode of poll for the frequent state parameter for sending, and the time for collecting data is saved only in the way of one-way transmission, is reacted according to data with profit in real time.Also, the data of the be intended to server collected of equipment cabinet management controller first can be integrated by rack backboard in advance, be available to equipment cabinet management controller, data transfer amount can be reduced and increase channel transport efficiency.Furthermore, the monitoring parameter of each server is dispersed among rack backboard and processes in advance, can mitigate the computational burden of equipment cabinet management controller, can also reduce the software development difficulty of equipment cabinet management controller.
【Description of the drawings】
Block schematic diagrams of the Fig. 1 for the server cabinet of one embodiment of the invention.
Fig. 2 is the connection diagram between the rack backboard and server of one embodiment of the invention.
Another block schematic diagrams of the Fig. 3 for the server cabinet of one embodiment of the invention.
Server cabinet monitoring method flow charts of the Fig. 4 for one embodiment of the invention.
Signal transmission schematic diagrams of the Fig. 5 for one embodiment of the invention.
【Specific embodiment】
The 1st figure is referred to, is the block schematic diagram of the server cabinet of one embodiment of the invention.Server cabinet includes equipment cabinet management controller 100, some servers 700 and an at least rack backboard 200(In this by taking multiple rack backboards 200 as an example).Each server 700 includes a baseboard management controller(Baseboard Management
Controller, BMC)300.Rack backboard 200 is connected between equipment cabinet management controller 100 and baseboard management controller 300.One rack backboard 200 can connect multiple baseboard management controllers 300(Server 700).Server 700 be one can be with the node of independent work, comprising central processing unit(Central Processing Unit, CPU), north and south bridge, volatile memory, storage element, the electronic device such as network chip.Storage element may be, for example, independent disk redundant array(Redundant Array of
Independent Disks, RAID)Or simple disk binding(Just a Bunch Of Disks, JBOD)The logic magnetic disc array such as system.Or, storage element can also be hard disk(Hard Disk Drive, HDD)Deng non-volatile storage.
As shown in Figure 1, server cabinet also includes multiple fan groups 400, and each fan group 400 can include one or more fan.Each rack backboard 200 can connect a fan group 400, to radiate to the server 700 connected by same rack backboard 200.In certain embodiments, rack backboard 200 can pass through intelligent management platform bus(Intelligent Platform
Management Bus, IPMB)Or pulse width modulation(Pulse Width Modulation, PWM)It is connected with fan group 400 etc. signal transmission form.
The 2nd figure is referred to, is the connection diagram between the rack backboard 200 of one embodiment of the invention and server 700.Rack backboard 200 can be via node signal pinboard(Node Signal Transfer Board, NSTB)800 and server tray backboard(Tray Backplane, TBP)900 baseboard management controllers 300 for being connected to server 700.Node signal pinboard 800 is the trunk interface of server tray backboard 900 and rack backboard 200, and one end of node signal pinboard 800 passes through cable(Cable)Connection server pallet backboard 900, the other end connect rack backboard 200 by PCI Express interfaces, but the present invention is not limited to this little interface type.Server tray backboard 900 is machine box for server(Server Chassis)Backboard, to realize power taking, power distribution and function switching signal.Rack backboard 200 can connect multiple node signal pinboards 800, and each node signal pinboard 800 can connect the baseboard management controller 300 of multiple servers 700 again via server tray backboard 900.
As shown in Figure 1, server cabinet also includes power distribution board(Power Distribution Board, PDB)500 and multiple power-supply units(Power Supply Unit, PSU)600.Equipment cabinet management controller 100 can pass through power distribution board 500 and is connected with power-supply unit 600.Server cabinet can include 10 power-supply units 600 and 10 rack backboards 200, each correspondence of power-supply unit 600 one rack backboard 200 of supply and its server 700 and 400 power for operation of fan group of connection, but the power-supply unit 600 of the server cabinet of the present invention is non-as limit with the quantity of rack backboard 200.
Refering to the 3rd figure, it is another block schematic diagram of the server cabinet of one embodiment of the invention.First processor 110, the first communication interface 120, bin 130 and power management bus are provided with inside equipment cabinet management controller 100(PMBus)140.First processor 110 is electrically connected with the first communication interface 120, bin 130 and power management bus 140.Power management bus 140 is electrically connected with power distribution board 500, and thereby first processor 110 can perform action command and pass through the transmission control message of power management bus 140 to power distribution board 500, so as to control the running of each power-supply unit 600.
Second processing device 210, the second communication interface 220, the 4th communication interface 230 and fan control interface 240 are provided with inside rack backboard 200.Second processing device 210 is electrically connected with the second communication interface 220, the 4th communication interface 230 and fan control interface 240.Fan control interface 240 is electrically connected with fan group 400.Fan control interface 240 can include some input and output foot positions(I/O Pins), and another control message can be transmitted to fan group 400 via fan control interface 240 by second processing device 210, to control rotation speed of the fan.Here, the 4th communication interface has the terminal for being compatible with PCI Express interfaces, and can be via the foot position of terminal transmission I2C, PWM, tachometer(Tachometer, abbreviation TACH)Or universal input and output(General Purpose I/O, abbreviation GPIO)Deng signal.But embodiments of the invention are not limited to this, the 4th communication interface can also be with the terminal for being compatible with other interfaces, such as RJ45, RS232, RS485 etc..
The 3rd processor 310, the 3rd communication interface 320 and sensor 330 are provided with inside baseboard management controller 300.3rd processor 310 is electrically connected with the 3rd communication interface 320 and sensor 330.Sensor 330 may be, for example, temperature sensor, to sense the temperature of the ambient temperature or a certain electronic device in a certain space in server cabinet.But the present embodiment is not limited to this, sensor 330 can also be voltage detector, can detect the running voltage of electronic device;Or be power detector, the power consumption of electronic device can be detected.Electronic device can be aforesaid central processing unit, north and south bridge, volatile memory, storage element, network chip etc..Baseboard management controller 300 is connected to the 4th communication interface 230 of rack backboard 200 via the 3rd communication interface 320(Node signal pinboard 800 and server tray backboard 900 have been also connected with therebetween, as shown in Figure 2), send the sensing data of sensor 330 to rack backboard 200.3rd communication interface 320 can include some input and output foot positions, through the different foot positions of definition function transmitting signal.The second processing device 210 of rack backboard 200 can determine whether to adjust the rotating speed of fan group 400 according to sensing data.And, the second processing device 210 of rack backboard 200 can transmit the first communication interface 120 of the sensing data or other logouts to equipment cabinet management controller 100 of sensor 330 via the second communication interface 220, the first processor 110 of equipment cabinet management controller 100 will can be stored in bin 130 via the sensing data or other logouts received by the first communication interface 120, or further performs action command according to this.First communication interface 120 and the second communication interface 220 can be I2C, RS485, USB or Ethernet.Bin 130 can be non-volatile internal memory, such as flash memory.Aforesaid first processor 110, second processing device 210 and the 3rd processor 310 are executable programming language(Programming language)Processor.
4th figure is the server cabinet monitoring method flow chart of one embodiment of the invention.5th figure is the signal transmission schematic diagram of one embodiment of the invention.Merge with reference to the 4th figure and the 5th figure.After server cabinet starts, threeth processor 310 of the first processor 110, the second processing device 210 of rack backboard 200 and baseboard management controller 300 of equipment cabinet management controller 100 is initialized first(Step S801).After the completion of to be initiated, i.e., when equipment cabinet management controller 100, rack backboard 200 can perform its respective function with baseboard management controller 300, the component connected to which by initial message can be sent according to the communications protocol for pre-establishing.That is, equipment cabinet management controller 100 sends the second communication interface 220 of an initial message to the rack backboard 200 for being connected after the completion of initial via the first communication interface 120(Step S802).Then, rack backboard 200 after the initial message that equipment cabinet management controller 100 sends is received can learn that equipment cabinet management controller 100 is initialized and completes, and be ready for sending monitoring parameter or other information to equipment cabinet management controller 100.The second processing device 210 of rack backboard 200 sends the 3rd communication interface 320 of another initial message to the baseboard management controller 300 for being connected via the 4th communication interface 230 after the completion of initialization(Step S803).Then, baseboard management controller 300 after the initial message that rack backboard 200 sends is received can learn that rack backboard 200 is initialized and completes, and be ready for sending monitoring parameter or other information to rack backboard 200.On the other hand, rack backboard 200 also can send the first communication interface 120 of initial message to the equipment cabinet management controller 100 for being connected after the completion of initialization via the second communication interface 220.Then, equipment cabinet management controller 100 can be after the initial message that rack backboard 200 sends be received, learn that rack backboard 200 is initialized to complete, and be ready for receiving monitor in real time parameter or the other information that 200 transmission of rack backboard comes, or transmittable information is to rack backboard 200.Similarly, the 3rd processor 310 of baseboard management controller 300 also can send the second communication interface 220 of initial message to the rack backboard 200 for being connected then after the completion of initialization via the 3rd communication interface 320.Then, rack backboard 200 can be after the initial message that baseboard management controller 300 sends be received, learn that baseboard management controller 300 is initialized to complete, and be ready for receiving monitor in real time parameter or the other information that the transmission of baseboard management controller 300 comes, or transmittable information is to baseboard management controller 300.Accordingly, when initial message is received, then can conclude that the source of the initial message completes initialization, to decide whether to start to transfer data to be connected component.In other words, the components such as above-mentioned each equipment cabinet management controller 100, rack backboard 200 and baseboard management controller 300 can be after the initialization is completed, initial message is sent to be connected component, which can start to be automatically transferred to the information that should be transmitted to allow the component for receiving this initial message to learn(Such as real-time monitoring parameter)Initialized component is completed to this.
Then, baseboard management controller 300 transmits the 4th communication interface 230 of the real-time monitoring parameter of subordinate server 700 to the rack backboard 200 for being connected from initial message is received incessantly via 320 timing of the 3rd communication interface(Step S804).Real-time monitoring parameter can include electronic device temperature value, the electronic device magnitude of voltage of server 700, the power consumption of server 700 or an ambient temperature of server 700.Electronic device can be aforesaid central processing unit, north and south bridge, volatile memory, storage element, network chip etc..The ambient temperature can be obtained by the temperature sensor being arranged in server cabinet.Temperature sensor is in addition to it can be the 3rd processor 310 for being connected to baseboard management controller 300, it is also possible to connect the second processing device 210 of rack backboard 200, and obtain detecting result by second processing device 210.Baseboard management controller 300 is, after oneself initialization completes and receive the initial message that rack backboard 200 sends, newest real-time monitoring parameter to be sent to rack backboard 200 constantly, until baseboard management controller 300 cannot be transmitted(Such as shutdown, when machine etc.)Till, require to transmit without waiting for rack backboard 200.Rack backboard 200 then, after initialization completes and receive the initial message that equipment cabinet management controller 100 sends, constantly transmits the first communication interface 120 of real-time monitoring parameter to equipment cabinet management controller 100 via 220 timing of the second communication interface(Step S805).In step S805, second processing device 210 is to process the real-time monitoring parameter for coming from each baseboard management controller 300(For example filter unnecessary information or simplify information), and the real-time monitoring parameter after process is sent to into equipment cabinet management controller 100, but the embodiment of the present invention is not limited to this, also the initial data for receiving can be sent to equipment cabinet management controller 100 directly without process.Through above-mentioned steps S801 to step S805, equipment cabinet management controller 100 can receive the real-time monitoring parameter of the offer of baseboard management controller 300 without poll, and can reduce the time needed for communication.
In one embodiment, the second processing device 210 of rack backboard 200 can also perform a control command according to the real-time monitoring parameter for being received.Rack backboard 200 can also have bin, and can store and update received real-time monitoring parameter.If rack backboard 200 receives the initial message of equipment cabinet management controller 100, then rack backboard 200 can timing send the real-time monitoring parameter for receiving to equipment cabinet management controller 100.
In an embodiment, the rotating speed and/or dutycycle of control command system control fan group 400(Duty cycle).The second processing device 210 of rack backboard 200 can calculate a rotation speed of the fan and/or dutycycle according to the real-time monitoring parameter for being received, and control the operating of fan group 400 then according to this rotation speed of the fan.Thereby, for example, when according to the real-time monitoring parameter for being received, rack backboard 200 judges that a certain or certain server 700 electronic device temperature is higher, can control corresponding fan group 400 and improve rotating speed, to improve radiating efficiency.Here, the real-time monitoring parameter can divide into the first level and the second level.The second processing device 210 of rack backboard 200 can filter received real-time monitoring parameter with the second level according to the first level, and only the real-time monitoring parameter of the second level be sent via the second communication interface 220 to the first communication interface 120 of equipment cabinet management controller 100.The second processing device 210 of rack backboard 200 is then according to the real-time monitoring parameter of the first level performing aforementioned control command(Such as judge whether server 700 needs to improve radiating).
In one embodiment, the second processing device 210 of rack backboard 200 is after aforementioned control command is performed, the first communication interface 120 of a logout to equipment cabinet management controller 100 can be transmitted via the second communication interface 220, this logout is stored to bin 130 by equipment cabinet management controller 100.Consequently, it is possible to the transmission times of real-time monitoring parameter can be reduced.Each rack backboard 200 can be each responsible for the radiating management of its server 700 for being connected, it is only necessary to return anomalous event and result gives equipment cabinet management controller 100.Equipment cabinet management controller 100 only needs the event for being responsible for processing the second level.
In one embodiment, running status of the real-time monitoring parameter of the second level for server 700(Such as frequency reducing or shutdown)The first processor 110 of equipment cabinet management controller 100 then can decide whether to adjust the output of the power-supply unit 600 corresponding to server 700 according to the running status of server 700, action command is performed according to this, for example, reduce output or reduce output voltage.
In certain embodiments, power distribution board 500 can have supervisory circuit, if supervisory circuit detects the output abnormality of a certain power-supply unit 600(Such as exceed power upper limit), equipment cabinet management controller 100 and rack backboard 200 can be passed through and notified 700 frequency reducing of server to power-supply unit 600 that should be abnormal, shut down or limit other servers 700 and start shooting, so that within power termination is maintained at peak power restriction.
In one embodiment, rack backboard 200 can correspond to each server 700 and set a proof cycle, to check whether each server 700 still persistently sends real-time monitoring parameter according to proof cycle.
With reference to the 3rd figure, server 700 can transmit non-recurrent incremental data, such as Internet Protocol in addition to the aforementioned real-time monitoring parameter of transmission to rack backboard 200, also(Internet Protocol, IP)Address, IP patterns, host name etc..This little non-recurrent incremental data only need to be just transmitted when changing, and can so reduce number of data transfers.
In certain embodiments, equipment cabinet management controller 100 after the initial message for receiving the transmission of rack backboard 200 can learn that this rack backboard 200 is initialized and completes, and can control message to the rack backboard 200 transmission.The control object of this control message can be rack backboard 200, be alternatively the baseboard management controller 300 of the server 700 of the connection of rack backboard 200.If control object is baseboard management controller 300, rack backboard 200 can transfer this control message so far baseboard management controller 300 after the initial message that this baseboard management controller 300 sends is received.
Though it is aforementioned with radiating management with power management illustrating, but equipment cabinet management controller is also available for management personnel to check resource inventory and error reporting(Such as hardware configuration mistake), and alarm can be sent.Therefore, monitoring parameter, control command and the action command for being transmitted is not limited with above-mentioned.
In sum, server cabinet monitoring method provided in an embodiment of the present invention does not adopt the mode of poll for the frequent state parameter for sending, and the time for collecting data is saved only in the way of one-way transmission, is reacted according to data with profit in real time.Also, the data of the be intended to server 700 collected of equipment cabinet management controller 100 first can be integrated by rack backboard 200 in advance, be available to equipment cabinet management controller 100, can be reduced data transfer amount and be increased channel transport efficiency.Furthermore, the monitoring parameter of each server 700 is dispersed among rack backboard 200 and processes in advance, can mitigate the computational burden of equipment cabinet management controller 100, can also reduce the software development difficulty of equipment cabinet management controller 100.And, can be after the initialization is completed by components such as above-mentioned each equipment cabinet management controller 100, rack backboard 200 and baseboard management controllers 300, initial message is sent to be connected component, can allow the information that the component for receiving this initial message can be automatically transferred to transmit initialized component to be completed to this, need not be polled.
Claims (9)
1. a kind of server cabinet monitoring method, suitable for a server cabinet, which includes an equipment cabinet management controller, some servers and at least rack backboard being connected between the equipment cabinet management controller and those servers, respectively the server includes a baseboard management controller, characterized in that, the server cabinet monitoring method is comprised the steps of:
Initialize one the 3rd processor of the baseboard management controller of a first processor, a second processing device of an at least rack backboard and those servers of the equipment cabinet management controller;
The equipment cabinet management controller sends second communication interface of an initial message to the rack backboard for being connected after the completion of initial via one first communication interface;
An at least rack backboard sends one the 3rd communication interface of another initial message to those baseboard management controllers for being connected after the completion of initialization via one the 4th communication interface;
Each baseboard management controller transmits the 4th communication interface of the real-time monitoring parameter of the server belonging to which at least rack backboard for being connected from the initial message that an at least rack backboard sends is received incessantly via the timing of the 3rd communication interface;And
An at least rack backboard transmits first communication interface of the real-time monitoring parameter to the equipment cabinet management controller from the initial message that the equipment cabinet management controller sends is received incessantly via the second communication interface timing.
2. server cabinet monitoring method as claimed in claim 1, it is characterised in that further include:
An at least rack backboard performs a control command according to the real-time monitoring parameter for being received.
3. server cabinet monitoring method as claimed in claim 2, it is characterised in that an at least rack backboard performs a control command according to the real-time monitoring parameter for being received, comprising:
The second processing device calculates a rotation speed of the fan according to the real-time monitoring parameter for being received;And
The second processing device performs the control command operating of a fan group is controlled according to the rotation speed of the fan.
4. server cabinet monitoring method as claimed in claim 3, it is characterised in that the real-time monitoring parameter is included:The electronic device temperature value of the server, the electronic device magnitude of voltage of the server, the power consumption of the server or an ambient temperature.
5. server cabinet monitoring method as claimed in claim 2, it is characterised in that the real-time monitoring parameter divides into one first level and one second level, and the server cabinet monitoring method is further included:
The real-time monitoring parameter of second level is sent to first communication interface of the equipment cabinet management controller by the second processing device of an at least rack backboard via second communication interface;And
The first processor of the equipment cabinet management controller performs an action command according to the real-time monitoring parameter for second level for being received.
6. server cabinet monitoring method as claimed in claim 5, it is characterised in that further include:
The second processing device of an at least rack backboard performs the control command according to the real-time monitoring parameter of first level.
7. server cabinet monitoring method as claimed in claim 5, it is characterized in that, the real-time monitoring parameter of second level is those server frequency reducings or shutdown, and the action command is control corresponding to the frequency reducing or the output of a power-supply unit of the server of shutdown.
8. server cabinet monitoring method as claimed in claim 2, it is characterised in that further include:
The second processing device of an at least rack backboard transmits first communication interface of a logout to the equipment cabinet management controller via second communication interface after the control command is performed;And
The first processor of the equipment cabinet management controller stores the logout to a bin.
9. server cabinet monitoring method as claimed in claim 1, it is characterised in that respectively the server settings have a proof cycle at least rack backboard correspondence, to check whether each server still persistently sends the real-time monitoring parameter according to the proof cycle.
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| CN107422276A (en) * | 2017-07-31 | 2017-12-01 | 郑州云海信息技术有限公司 | Device and method is surveyed in a kind of power cabinet physical examination |
| CN108693926A (en) * | 2017-04-06 | 2018-10-23 | 佛山市顺德区顺达电脑厂有限公司 | Rack server system and its assembling management method |
| CN109150658A (en) * | 2018-08-16 | 2019-01-04 | 浪潮电子信息产业股份有限公司 | A kind of RACK cabinet BMC and RBP communication stability test method |
| CN109408293A (en) * | 2018-11-02 | 2019-03-01 | 郑州云海信息技术有限公司 | A kind of method of real-time monitoring RACK cabinet power supply |
| CN110048889A (en) * | 2019-04-18 | 2019-07-23 | 山东超越数控电子股份有限公司 | A kind of highly reliable Cabinet administration system |
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