CN103428021A - Cabinet level server, cabinet level server node information management method and system - Google Patents

Abstract

The invention is applicable to the technical field of servers, and discloses a cabinet level server and cabinet level server node information management method and system. According to the invention, module management units are collected and are connected with a cabinet management unit with a built-in management policy; a proprietary management channel between a server node and the cabinet management unit is established through the cabinet management unit; and the cabinet management unit manages node information collected by each module management unit through the proprietary management channel and based on the built-in management policy. According to the cabinet level server and cabinet level server node information management method and system, which are provided by the invention, the proprietary management channel between the server node and the cabinet management unit is established through the module management unit; the node information or the state information of other equipment is acquired without relying on an exchange; the permission of the existing computer room management architecture is not needed; the applicability to an application scene is strong; and the product has good compatibility and is convenient for a customer to use.

Description

Cabinet-level server, cabinet-level server nodal information management method and system

Technical field

The invention belongs to the server technology field, relate in particular to a kind of cabinet-level server, cabinet-level server nodal information management method and system.

Background technology

Current server, cabinet-level server for example, it comprises and is provided with a plurality of front-end server nodes that are arranged on frame.In prior art, need collect each business unit by the management switch is set, fan, the information of the corollary equipments such as power supply, and all need to arrange BMC(Baseboard Management Controller on every front-end server node, baseboard management controller), the management channels that management process need rely on switch manages, the management channels of the management channels in this mode and client's machine room has overlapping, need the existing management of client scene allow device access and utilize this passage, if the existing management component of client does not allow, can't manage server, application scenarios to equipment has very large restriction, compatible poor, be not easy to client's use.

Summary of the invention

The object of the invention is to overcome above-mentioned the deficiencies in the prior art, a kind of cabinet-level server, cabinet-level server nodal information management method and system are provided, its compatibility is good, is convenient to client's use.

Technical scheme of the present invention is: a kind of cabinet-level server comprises frame, one or more server nodes, one or more node links, one or more module managements unit and rack administrative unit server node;

Described node link is arranged on described frame, with one or more described server nodes, is connected;

Each described node link is also for being connected with a described module management unit, and described module management unit is for collecting the nodal information of the one or more described server nodes that are connected with this node link by the described node link be attached thereto;

Described rack administrative unit is arranged on described frame, with each described module management unit, is connected, and for the nodal information of each described server node of collecting according to each described module management unit, each described server node is managed;

Wherein, realize the transmission of described nodal information between described rack administrative unit and described server node by own management channels.

The present invention also provides a kind of cabinet-level server nodal information management method, be applied to cabinet-level server, described cabinet-level server comprises: frame, one or more server nodes, one or more node links, one or more module managements unit and rack administrative unit; Described node link is arranged on described frame, with one or more described server nodes, is connected; Each described node link is also for being connected with a described module management unit, described rack administrative unit is arranged on described frame, with each described module management unit, be connected, wherein, realize the transmission of the nodal information of each server node between described rack administrative unit and described server node by own management channels;

Described method comprises:

The described nodal information of the one or more described server nodes that are connected with this node link is collected in described module management unit by the described node link be attached thereto;

Described rack administrative unit manages each described server node for the nodal information of each the described server node according to each described module management unit collection.

The present invention also provides a kind of server management system, comprise cabinet-level server, described cabinet-level server comprises frame, one or more server nodes, one or more node links, one or more module managements unit and rack administrative unit server node; Described node link is arranged on described frame, with one or more described server nodes, is connected; Each described node link is also for being connected with a described module management unit, and described module management unit is for collecting the nodal information of the one or more described server nodes that are connected with this node link by the described node link be attached thereto; Described rack administrative unit is arranged on described frame, with each described module management unit, is connected, and for the nodal information of each described server node of collecting according to each described module management unit, each described server node is managed; Wherein, realize the transmission of described nodal information between described rack administrative unit and described server node by own management channels; Described server management system also comprises the customer account management end, described customer account management end is connected in described rack administrative unit, and described rack administrative unit manages or report to described customer account management end according to built-in management strategy to the nodal information of Servers installed.

Cabinet-level server provided by the present invention, cabinet-level server nodal information management method and system, it sets up own management channels is arranged by the module management unit between server node and rack administrative unit, do not rely on the state information that switch obtains nodal information or miscellaneous equipment, and the own passage that relies on server obtains the state information of nodal information and other equipment, permission without existing computer lab management framework, do not rely on the client-side management pattern, strong to the application scenarios applicability, Products Compatibility is good, is convenient to client's use.

The accompanying drawing explanation

Fig. 1 is the stereogram of the cabinet-level server that provides of the embodiment of the present invention;

Fig. 2 is the assembling stereogram of module management unit, node link and server node in the cabinet-level server that provides of the embodiment of the present invention;

Fig. 3 is the rearview of the cabinet-level server that provides of the embodiment of the present invention;

Fig. 4 is the connection diagram of the cabinet-level server nodal information management system that provides of the embodiment of the present invention.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

A kind of cabinet-level server nodal information management method that the embodiment of the present invention provides, can be used for nodal information to relevant device, module in cabinet-level server, state etc. and supervised.Described cabinet-level server comprises: frame 1, one or more server nodes 3, one or more node links 2, one or more module managements unit (Module Management Control, be called for short MMC, also can be described as the module management controller) 4 and rack administrative unit (Rack Management Control, be called for short RMC, also can be described as the rack Management Controller) 5; Described node link 2 is arranged on described frame 1, with one or more described server nodes 3, is connected; Each described node link 2 is also for being connected with a described module management unit 4, described rack administrative unit 5 is arranged on described frame 1, with each described module management unit 4, be connected, wherein, realize the transmission of the nodal information of each server node 3 between described rack administrative unit 5 and described server node 3 by own management channels;

Described method comprises:

The described nodal information of the one or more described server node 3 be connected with this node link 2 is collected in described module management unit 4 by the described node link 2 be attached thereto;

Described rack administrative unit 5 manages each described server node 3 for the nodal information of each the described server node 3 according to each described module management unit 4 collections.

Particularly, as depicted in figs. 1 and 2, node link 2 can be designed to frame shape or housing shape or tabular etc., for the connection server node, on same node link 2, can connect one, two or more server node 3.Server node 3 can be the front-end server node, such as blade server node 3 etc.

As shown in Figure 2, module management unit 4 is for collecting the nodal information of the server node 3 on this node link 2, and nodal information includes but not limited to cpu temperature, server node 3 running statuses, server node 3 assets informations, power module state information, power distribution unit state information and radiating module state information etc.

As shown in Figure 2, module management unit 4 can be collected the nodal information that is connected in the Servers-all node 3 on same node link 2; Like this, without BMC(Baseboard Management Controller is set on every station server node 3, baseboard management controller), only need a module management unit 4 just can collect the nodal information of multiple servers node 3, greatly reduce the cost of server.

As depicted in figs. 1 and 2, module management unit 4 is gathered and is connected on rack administrative unit 5, rack administrative unit 5 is built-in with management strategy, and a rack administrative unit 5 can be connected on a plurality of module managements unit 4.

In concrete application, as depicted in figs. 1 and 2, in same server, a rack administrative unit 5 can only be set, this rack administrative unit 5 can be connected on module management unit 4 all in server, module management unit 4 can be set to one, two or more, and node link 2 can correspondingly be set to one, two or more.Each node link 2 can be plugged with one, two or multiple servers node 3; Like this, a node link 2 and the Servers-all node 3 be connected on this node link 2 can form a module, each module is connected by a module management unit 4, module management unit 4 can be used for collecting the nodal information in server node 3 in modules, and the node work and rest is gathered to rack administrative unit 5, rack administrative unit 5 manages, reports nodal information according to nodal information and built-in strategy, and the state of server node 3 is regulated, managed, make server node 3 stability and high efficiency ground operations.Certainly, also can be arranged in same server two or more rack administrative units 5 are set, each rack administrative unit 5 can connect a plurality of module managements unit 4.During concrete application, the quantity of rack administrative unit 5, module management unit 4 and server node 3 can be determined according to actual conditions, all belongs to protection scope of the present invention.

As depicted in figs. 1 and 2, can set up the own management channels between server node 3 and rack administrative unit 5 by module management unit 4; Rack administrative unit 5 is by own management channels and to each module management unit 4, collected nodal information manages according to built-in management strategy.Own management channels refers to that front-end server that internal system passes through to set up module management unit 4 is to the passage between rack administrative unit 5, this passage belongs to the own passage of server inside, between between module management unit 4 and rack administrative unit 5 and module management unit 4 and server node 3, by cable or backboard, be electrically connected to, by module management unit 4, rack administrative unit 5, agreement between server node 3, and connection cable or backboard for transmitting data, can set up own management channels, own management channels is totally independent of existing computer lab management passage, own management channels can not be subject to the impact of existing computer lab management pattern, own management channels can accurately be managed all parts of server inside.By above-mentioned management method, can not rely on client's computer lab management passage fully, just can be easily, efficiently server is managed, to existing management framework, management scene, without specific (special) requirements, the compatibility of server is good, easy to use.

Particularly, as depicted in figs. 1 and 2, be provided with power module 7 on frame 1, above-mentioned management method is further comprising the steps of, set up the own power management channel between rack administrative unit 5 and power module 7, rack administrative unit 5 can be turn-offed, dormancy, system power be bound etc. power module 7 by own power management channel.

Particularly, as depicted in figs. 1 and 2, be provided with blower module 6 on frame 1, above-mentioned management method is further comprising the steps of, set up the own radiating management passage between rack administrative unit 5 and blower module 6, rack administrative unit 5 is by own radiating management passage and according to built-in management strategy, blower module 6 is carried out to speed governing.Can be provided with temperature sensor on frame 1, with perception rack real time temperature, rack administrative unit 5 can be collected the real time temperature of rack, and according to built-in strategy to fan broken, speed governing.When the interior of equipment cabinet temperature is higher, rack administrative unit 5 is heightened the rotating speed of fan by own radiating management passage the built-in strategy of foundation, to guarantee that server can be in normal operating temperature range.When the interior of equipment cabinet temperature reduces, rack administrative unit 5 is turned down the rotating speed of fan by own radiating management passage the built-in strategy of foundation, to reduce power consumption and the noise of server, can realize accurate speed governing and energy-conservation, and be conducive to extend the useful life of fan, continue to keep more high warning message if produce temperature, rack administrative unit 5 can report warning message, so that the keeper solves in time, server reliability is high.

Particularly, as shown in Figure 1, be provided with power distribution unit (power distribution unit, PDU) 8 on frame 1, above-mentioned management method is further comprising the steps of, sets up the own power distribution management channels between rack administrative unit 5 and power distribution unit 8.Rack administrative unit 5 can realize condition managing to the PDU module by the protocol Data Unit management channels.

Server node approaches to IM provided by the present invention, it does not rely on the state information that switch obtains nodal information or miscellaneous equipment, and the own passage that relies on server obtains the state information of nodal information and other equipment, and can to the interior server node 3 of frame 1 and other auxiliary equipment, manage by the interior reliably own passage of frame 1, permission without existing computer lab management framework, do not rely on the client-side management pattern, strong to the application scenarios applicability, Products Compatibility is good, make the client carry out monitoring management to the interior of equipment cabinet all devices by RMC, and, without on every station server node 3, BMC being set, realized that server, without the BMCization design, has reduced cost.

As depicted in figs. 1 and 2, the embodiment of the present invention also provides a kind of cabinet-level server, comprises frame 1 and one, two or more server node 3, one, two or more node link 2, one, two or more module managements unit 4 and rack administrative unit server node 5.Server node 3 can be the front-end server node, such as blade server node etc.Node link 2 can be fixedly installed on frame 1, with one, two or more server node 3, be connected, each described node link 2 is also for being connected with a described module management unit 4, the nodal information of the one or more described server node 3 be connected with this node link 2 is collected in described module management unit 4 for the described node link 2 by being attached thereto, module management unit 4 can be collected the nodal information that is connected in the Servers-all node 3 on same node link 2; Nodal information includes but not limited to cpu temperature, server node 3 running statuses, server node 3 assets informations.

As depicted in figs. 1 and 2, described rack administrative unit 5 is arranged on described frame 1, be connected with each described module management unit 4, for the nodal information of each described server node 3 of collecting according to each described module management unit 4, each described server node 3 managed; Rack administrative unit 5 is built-in with management strategy, and each module management unit 4 is connected in rack administrative unit 5, and sets up own management channels by module management unit 4 between server node 3 and rack administrative unit 5.Realize the transmission of described nodal information between described rack administrative unit 5 and described server node 3 by own management channels.Own management channels refers to that front-end server that internal system passes through to set up module management unit 4 is to the passage between rack administrative unit 5, this passage belongs to the own passage of server inside, be totally independent of client's computer lab management passage, own management channels can not be subject to the impact of computer lab management pattern, and all parts of server inside are accurately managed.Server provided by the present invention, can not rely on client's computer lab management passage fully, just can be easily, efficiently server is managed, to the existing management framework of client, management scene without specific (special) requirements, the compatibility of server is good, is convenient to client's use.

In concrete application, as depicted in figs. 1 and 2, in same server, a rack administrative unit 5 can only be set, this rack administrative unit 5 can be connected on module management unit 4 all in server, and module management unit 4 can be set to one, two or more.And each module management unit 4 can be connected on a node link 2, node link 2 can be set to one, two or more, and in the present embodiment, node link 2 is provided with five.Each node link 2 can be plugged with one, two or multiple servers node 3; Like this, a node link 2 and the Servers-all node 3 be connected on this node link 2 can form a module, each module is connected and collector node information by a module management unit 4, and the node work and rest is gathered to rack administrative unit 5, rack administrative unit 5 manages, reports nodal information according to nodal information and built-in strategy, and the state of adjustment server node 3, make server node 3 stability and high efficiency ground operations.Certainly, also two or more rack administrative units 5 can be set in same server, each rack administrative unit 5 can connect a plurality of module managements unit 4.The quantity of concrete rack administrative unit 5, module management unit 4 and server node 3 can be determined according to actual conditions, all belongs to this protection range.Module management unit 4 is set up own management channels with server node 3 and is collected the nodal information of server node 3, nodal information is gathered to the mode of rack administrative unit 5 again, it can reduce the quantity of rack administrative unit 5, external client only needs with rack administrative unit 5, to be connected separately, to using, manage, safeguarding, all offers convenience.Particularly, as depicted in figs. 1 and 2, node link 2 is frame shape or housing shape or tabular etc., and node link 2 is provided with at least one, be connected with at least one server node 3 on each node link 2, a plurality of server nodes 3 can be electrically connected on node link 2 by cable or System Backplane, on frame 1, chute are set, node link 2 slides and is inserted in chute and lock onto on frame 1 by locking member, so that dismounting.Locking member can be screw or buckle etc.Be connected with a module management unit 4 on each node link 2, each module management unit 4 gathers and is connected in rack administrative unit 5, and described rack administrative unit 5 is set up described own management channels by described module management unit 4.Server node 3 can be arranged at the front of node link 2, so that dismounting, maintenance.Module management unit 4 can be plugged in the back side of node link 2, rationally distributed.Each node link 2 can be arranged at intervals on frame 1 up and down, and the module management unit 4 on each node link 2 can gather and be connected in rack administrative unit 5 by cable, and rack administrative unit 5 can be arranged at the stage casing of frame 1, so that line.

More specifically, as shown in Figure 2, in the present embodiment, node link 2 is the frame shape, node link 2 comprises System Backplane 21 and framework 22, and the two ends of framework 22 can be set to opening, and System Backplane 21 can be arranged at an end of framework 22 its split sheds and this openend is sealed, it can play the effect conducted, and the server node 3 connected thereon can carry out transfer of data with module management unit 4.Server node 3 is connected on the one side of System Backplane 21, and module management unit 4 is connected on the another side of System Backplane 21.

More specifically, as depicted in figs. 1 and 2, also be provided with auxiliary equipment on frame 1, set up between rack administrative unit 5 and auxiliary equipment own auxiliary management channels is arranged.Described rack administrative unit 5 manages described auxiliary equipment by own power management channel; between rack administrative unit 5 and auxiliary equipment, but cable is electrically connected to; by the agreement between mould rack administrative unit 5, auxiliary equipment; and for transmitting the cable of data; can set up own auxiliary management channels; own auxiliary management channels is also the inner own passage of server; it does not rely on switch and the existing computer lab management framework of client; do not rely on the client-side management pattern; strong to the application scenarios applicability, Products Compatibility is good.Rack administrative unit 5 can be set up reliable management channels with the auxiliary equipment in rack, is convenient to the client state of auxiliary equipment is managed.Auxiliary equipment includes but not limited to power module 7, blower module 6, power distribution unit 8.Own auxiliary management channels includes but not limited to own power management channel, own radiating management passage, own power distribution management channels.

In the present embodiment, as shown in Figure 3, power module 7 is fixedly installed on the rear end of frame 1, can be connected and set up own power management channel by cable between rack administrative unit 5 and power module 7, described rack administrative unit 5 manages described power module 7 by own power management channel, and rack administrative unit 5 can be turn-offed, dormancy, system power be bound etc. power module 7 by own power management channel.

In the present embodiment, as shown in Figure 3, blower module 6 is fixedly installed on the rear end of frame 1, between blower module 6 and rack administrative unit 5, can be connected by cable, set up own radiating management passage is arranged between rack administrative unit 5 and blower module 6, described rack administrative unit 5 manages rack administrative unit 5 by own radiating management passage and according to built-in management strategy, blower module 6 is carried out to speed governing described blower module 6 by own radiating management passage.Can be provided with temperature sensor on frame 1, with the real time temperature of monitor server inside, rack administrative unit 5 can be passed through the real time temperature of temperature sensor monitors rack, and according to built-in strategy to fan broken, speed governing etc.Described rack administrative unit 5 manages described power distribution unit 8 by own power distribution management channels.

Cabinet-level server provided by the present invention, it does not rely on the state information that switch obtains server node 3 nodal informations or other auxiliary equipment, and the own passage that relies on server obtains the state information of nodal information and other equipment, and can to the interior server node 3 of frame 1 and other auxiliary equipment, manage by the interior reliably own passage of frame 1, permission without existing computer lab management framework, do not rely on the client-side management pattern, strong to the application scenarios applicability, Products Compatibility is good, make the client carry out monitoring management to the interior of equipment cabinet all devices by RMC, and, without on every station server node 3, BMC being set, realized that server, without the BMCization design, has reduced cost.

As shown in Figure 4, the embodiment of the present invention also provides a kind of server management system, comprises above-mentioned cabinet-level server and has adopted above-mentioned management method.Described cabinet-level server bag comprises frame 1 and one, two or more server node 3, one, two or more node link 2, one, two or more module managements unit 4 and rack administrative unit server node 5.Server node 3 can be the front-end server node, such as blade server node etc.Node link 2 can be fixedly installed on frame 1, with one, two or more server node 3, be connected, each described node link 2 is also for being connected with a described module management unit 4, the nodal information of the one or more described server node 3 be connected with this node link 2 is collected in described module management unit 4 for the described node link 2 by being attached thereto, module management unit 4 can be collected the nodal information that is connected in the Servers-all node 3 on same node link 2; Nodal information includes but not limited to cpu temperature, server node 3 running statuses, server node 3 assets informations.

As depicted in figs. 1 and 2, described rack administrative unit 5 is arranged on described frame 1, be connected with each described module management unit 4, for the nodal information of each described server node 3 of collecting according to each described module management unit 4, each described server node 3 managed; Rack administrative unit 5 is built-in with management strategy, and each module management unit 4 is connected in rack administrative unit 5, and sets up own management channels by module management unit 4 between server node 3 and rack administrative unit 5.Realize the transmission of described nodal information between described rack administrative unit 5 and described server node 3 by own management channels.Own management channels refers to that front-end server that internal system passes through to set up module management unit 4 is to the passage between rack administrative unit 5, this passage belongs to the own passage of server inside, be totally independent of client's computer lab management passage, own management channels can not be subject to the impact of computer lab management pattern, with all parts to server inside, accurately manages.By above-mentioned management method, can not rely on client's computer lab management passage fully, just can be easily, efficiently server is managed, to the existing management framework of client, management scene, without specific (special) requirements, the compatibility of server is good, is convenient to client's use.

Server management system also comprises the customer account management end, and the customer account management end is connected in rack administrative unit 5, and rack administrative unit 5 manages or report to the customer account management end according to built-in management strategy to the nodal information of Servers installed, compatible good.

Particularly, be provided with power distribution unit (power distribution unit, PDU) 8 on frame 1, above-mentioned management method is further comprising the steps of, sets up the own power distribution management channels between rack administrative unit 5 and power distribution unit 8.Rack administrative unit 5 can realize condition managing to the PDU module by the protocol Data Unit management channels.

More specifically, as depicted in figs. 1 and 2, also be provided with auxiliary equipment in server, and set up own auxiliary management channels between rack administrative unit 5 and auxiliary equipment.Own auxiliary management channels is also the inner own passage of server, and it does not rely on switch and the existing computer lab management framework of client, does not rely on the client-side management pattern, and strong to the application scenarios applicability, Products Compatibility is good.Rack administrative unit 5 can be set up reliable management channels with the auxiliary equipment in rack, is convenient to the client state of auxiliary equipment is managed.Auxiliary equipment includes but not limited to power module 7, blower module 6.Own auxiliary management channels includes but not limited to own power management channel, own radiating management passage.Also can connect and use switch on RMC.

Server management system provided by the present invention, it does not rely on the state information that switch obtains server node information or other auxiliary equipment, and the own passage that relies on server obtains the state information of nodal information and other equipment, and can to the interior server node 3 of frame 1 and other auxiliary equipment, manage by the interior reliably own passage of frame 1, permission without existing computer lab management framework, do not rely on the client-side management pattern, strong to the application scenarios applicability, Products Compatibility is good, make the client carry out monitoring management to the interior of equipment cabinet all devices by RMC, and, without on every station server node 3, BMC being set, realized that server, without the BMCization design, has reduced cost.

Corresponding to equipment and system embodiment, due to it, substantially corresponding to embodiment of the method, so describe fairly simplely, relevant part gets final product referring to the part explanation of embodiment of the method.Embodiment described above is only that schematically wherein module can be or can not be also physical module, can be positioned at a place, or also can be distributed to a plurality of places.It should be noted that, the front end described in the present embodiment, rear end, front, the back side etc. mean the term in orientation, be to take that the conventional operation attitude of server is reference, and should not be regarded as have restrictive.

These are only preferred embodiment of the present invention, not in order to limit the present invention, all any modifications of doing within the spirit and principles in the present invention, be equal to and replace or improvement etc., within all should being included in protection scope of the present invention.

Claims (10)

1. a cabinet-level server, is characterized in that: comprise frame, one or more server nodes, one or more node links, one or more module managements unit and rack administrative unit server node;

Described node link is arranged on described frame, with one or more described server nodes, is connected;

Each described node link is also for being connected with a described module management unit, and described module management unit is for collecting the nodal information of the one or more described server nodes that are connected with this node link by the described node link be attached thereto;

Described rack administrative unit is arranged on described frame, with each described module management unit, is connected, and for the nodal information of each described server node of collecting according to each described module management unit, each described server node is managed;

Wherein, realize the transmission of described nodal information between described rack administrative unit and described server node by own management channels.

2. cabinet-level server as claimed in claim 1, it is characterized in that, described node link is frame shape or housing shape and is provided with at least one, each described module management unit gathers and is connected in described rack administrative unit, and described rack administrative unit is set up described own management channels by described module management unit.

3. cabinet-level server as claimed in claim 2, is characterized in that, described node link comprises System Backplane, and described server node is connected on described System Backplane, and described module management unit is connected on described System Backplane.

4. cabinet-level server as claimed in claim 1, is characterized in that, also is provided with auxiliary equipment on described frame, and described rack administrative unit manages described auxiliary equipment by own power management channel.

5. cabinet-level server as claimed in claim 4, is characterized in that, described auxiliary equipment comprises power module, and described rack administrative unit manages described power module by described own power management channel.

6. cabinet-level server as claimed in claim 4, is characterized in that, described auxiliary equipment comprises blower module, and described rack administrative unit manages described blower module by own radiating management passage.

7. cabinet-level server as described as any one in claim 1 to 6, is characterized in that, on described frame, is provided with temperature sensor, and described temperature sensor is electrically connected on described rack administrative unit.

8. cabinet-level server as described as any one in claim 1 to 6, is characterized in that, on described frame, is provided with power distribution unit, and described rack administrative unit is had the sources distribution management passage by oneself by electricity described power distribution unit is managed.

9. a cabinet-level server nodal information management method, is characterized in that, is applied to cabinet-level server, described cabinet-level server comprises: frame, one or more server nodes, one or more node links, one or more module managements unit and rack administrative unit; Described node link is arranged on described frame, with one or more described server nodes, is connected; Each described node link is also for being connected with a described module management unit, described rack administrative unit is arranged on described frame, with each described module management unit, be connected, wherein, realize the transmission of the nodal information of each server node between described rack administrative unit and described server node by own management channels;

Described method comprises:

The described nodal information of the one or more described server nodes that are connected with this node link is collected in described module management unit by the described node link be attached thereto;

Described rack administrative unit manages each described server node for the nodal information of each the described server node according to each described module management unit collection.

10. a server management system, is characterized in that, comprises cabinet-level server, described cabinet-level server comprises frame, one or more server nodes, one or more node links, one or more module managements unit and rack administrative unit server node;

Described node link is arranged on described frame, with one or more described server nodes, is connected;

Each described node link is also for being connected with a described module management unit, and described module management unit is for collecting the nodal information of the one or more described server nodes that are connected with this node link by the described node link be attached thereto;

Described rack administrative unit is arranged on described frame, with each described module management unit, is connected, and for the nodal information of each described server node of collecting according to each described module management unit, each described server node is managed;

Wherein, realize the transmission of described nodal information between described rack administrative unit and described server node by own management channels;

Described server management system also comprises the customer account management end, described customer account management end is connected in described rack administrative unit, and described rack administrative unit manages or report to described customer account management end according to built-in management strategy to the nodal information of Servers installed.

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