CN106155859A

CN106155859A - A kind of monitoring management system, information processing method and high density server

Info

Publication number: CN106155859A
Application number: CN201510145905.2A
Authority: CN
Inventors: 杨立中; 汤文军
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-03-30
Filing date: 2015-03-30
Publication date: 2016-11-23
Anticipated expiration: 2035-03-30
Also published as: CN106155859B

Abstract

The embodiment of the present invention provides a kind of monitoring management system, information processing method and high density server, for simplifying the operation of server node in high density server and management difficulty, improves the efficiency of management to server node.This monitoring management system, including: high density server, comprise Centralized Controller, multiplexer (MUX and N number of server node, described multiplexer (MUX is connected with described Centralized Controller and described N number of server node respectively；Monitoring management terminal, is connected with described high density server by described Centralized Controller；Wherein, when described Centralized Controller makes described management and monitoring terminal connect with the first server node in described N number of server node by described multiplexer (MUX, described monitoring management terminal receives graphical display information, and generates according to described graphical display information and show and described first server node graph of a correspondence interface.

Description

A kind of monitoring management system, information processing method and high density server

Technical field

The present invention relates to electronic technology field, particularly to a kind of monitoring management system, information processing method and High density server.

Background technology

Along with the development of data processing technique, high density server is becoming extensive portion of super large data center The mainstream demand of administration.High density server includes multiple server node, and each server node configures There are proprietary display chip and display interface and browser, by character Command mode or browser interface pair Server node is managed and safeguards.

At present, each node of existing server would generally be furnished with special BMC (Baseboard Management Controller, baseboard management controller), BMC is integrated with display chip, can directly connect Display, keyboard, mouse receive USB, and effect is just as one computer of operation, during by remote access Figure can also be realized show, experience similar with the mode of operation in this locality.

But, if server node density uprises, for the ease of the control of server node is managed, first The method of kind is to configure special BMC for every node, to realize the management of remote graphics interface operation and monitoring Server, but so will increase cost of manufacture and the design difficulty of high density server；Second method is many Individual Node station shares a BMC chip, is the most no longer each node configuration BMC special chip, so, Because server node does not has single display chip and display interface, management personnel can only order at terminal network Order row accesses node server, operation complexity, and visuality is not directly perceived, and management process efficiency is relatively low.

In summary, prior art middle-high density server exists bigger to the management difficulty of server node Technical problem.

Summary of the invention

The embodiment of the present invention provides a kind of monitoring management system, information processing method and high density server, uses In the technology that the management difficulty to server node solving the existence of prior art middle-high density server is bigger Problem, it is achieved simplify the operation of server node in high density server and management difficulty, improve service The efficiency of management of device node.

A kind of monitoring management system, including:

High density server, comprises Centralized Controller, multiplexer (MUX and N number of server node, described many Road controller is connected with described Centralized Controller and described N number of server node respectively, and N is more than or equal to 2 Integer；

Monitoring management terminal, is connected with described high density server by described Centralized Controller；

Wherein, described management and monitoring terminal and institute are made when described Centralized Controller by described multiplexer (MUX State in N number of server node first server node connection time, described monitoring management terminal receive from In the graphical display information of described first server node, and generate according to described graphical display information And show and described first server node graph of a correspondence interface.

Optionally, described monitoring management terminal also includes:

Display shape library, calls corresponding with described graphical display information for described monitoring management terminal Display figure.

Optionally, described high density server also includes:

Monitoring server device, is all connected with described N number of server node and described Centralized Controller, is used for Monitor the operational factor of each server node in described N number of server node, and by described operational factor Send to described Centralized Controller, so that described Centralized Controller by described operational factor and services accordingly Device node listing sends to described monitoring management terminal.

Optionally, described high density server also includes:

Operation firmware, is positioned at each server node in described N number of server node, for gather with The displaying information on screen of the described first server node that described monitoring management terminal connects.

A kind of information processing method, is applied to monitoring management system, and described method includes:

Monitoring management terminal in described monitoring management system sends for monitoring management system described in connection management The first connectivity request message that the first server node in N number of server node in system is connected, its In, N is the integer more than or equal to 2；

Centralized Controller in described monitoring management system receives described first connectivity request message, and passes through Multiplexer (MUX in described monitoring management system sets up described management and monitoring terminal and described first server Communication connection between node；

Described first server node generates graphic software platform letter according at least one video data of self Breath, and described graphical display information is sent to described monitoring management terminal；

Described monitoring management terminal receives described graphical display information, and according at least one display described Display graphic hotsopt display in data call display shape library are corresponding with described first server node Graphic interface.

Optionally, the monitoring management terminal in described monitoring management system sends for described in connection management The first connection request that the first server node in N number of server node in monitoring management system is connected Before information, also include:

When the monitoring management terminal in described monitoring management system is by network interface and described monitoring management system When Centralized Controller in system is connected, controls described Centralized Controller and send institute to described monitoring management terminal State the server node list that the N number of server node in monitoring management system is corresponding；

Described monitoring management terminal receives described server node list, and arranges according to described server node Table determines the first server node that will be attached management in described N number of server node, generates use The first connectivity request message in first server node described in connection management.

Optionally, the Centralized Controller in described monitoring management system receives described first connection request letter Breath, and set up described management and monitoring terminal with described by the multiplexer (MUX in described monitoring management system Communication connection between first server node, specifically includes:

Centralized Controller in described monitoring management system according to receive described first connectivity request message, Generate gating signal and send the multiplexer (MUX to described monitoring management system；

Described multiplexer (MUX enables the special of described first server node according to the described gating signal received Connect with described Centralized Controller with interface, and send interrupt signal to described first server node；

Described first server node receives described interrupt signal, starts at least two being in idle state Application program, sets up the communication link with described monitoring management terminal by described at least two application program Connect；Wherein, described at least two application program includes virtual display program and virtual I/O device journey Sequence.

Optionally, receive described interrupt signal at described first server node, start and be in idle state At least two application program while, described method also includes:

Described virtual display program is set up and is connected with the communication of described monitoring management terminal, will be with described first Send to described monitoring management terminal after the virtual display curtain information coding that server node is corresponding；

Described virtual I/O device program set up be connected with the communication of monitoring management terminal, reception from At least one input and output instruction of described monitoring management terminal.

Optionally, described management and monitoring is being set up eventually by the multiplexer (MUX in described monitoring management system After communication connection between end and described first server node, and startup is in idle state at least Before two application programs, described method also includes:

Described multiplexer (MUX sends reset signal to described first server node, controls described first clothes Business device node is restarted；

Basic input-output system BIOS in described first server node and operating system are by described the Virtual screen display information corresponding for described first server node is passed through institute by the serial port of one server State multiplexer (MUX and described Centralized Controller sends to described monitoring management terminal, to show described first Server node is at the startup screen message of replay phase.

A kind of high density server, including:

N number of server node, N is the integer more than or equal to 2；

Multiplexer (MUX, by special purpose interface and each server node phase in described N number of server node Even；

Centralized Controller, is connected with described multiplexer (MUX, for gathering described N number of server node Parameter information, and by described multiplexer (MUX, the first server in described N number of server node is saved Point is attached with management and monitoring terminal, so that generating in described management and monitoring terminal and showing and described the One server node graph of a correspondence interface.

The one or more technical schemes provided in the embodiment of the present invention, at least have the following technical effect that or excellent Point:

1, a kind of data handling system is embodiments provided, including: high density server, comprise collection Middle controller, multiplexer (MUX and N number of server node, described multiplexer (MUX respectively with described concentration Controller and described N number of server node connect, and N is the integer more than or equal to 2；Monitoring management terminal, It is connected with described high density server by described Centralized Controller；Wherein, lead to when described Centralized Controller Cross described multiplexer (MUX and make described management and monitoring terminal and the first service in described N number of server node During the connection of device node, described monitoring management terminal receives and comes from the graphical of described first server node Display information, and generate according to described graphical display information and show and described first server node pair The graphic interface answered.

In high density server, Centralized Controller makes monitoring management monitor terminal by controlling multiplexer (MUX Connecting with first server node, the image display information of collection is sent out by first server by Centralized Controller Giving monitoring management terminal, monitoring management terminal generates according to this graphical display information and shows the figure of correspondence Shape interface, therefore high density server is capable of monitoring management eventually by Centralized Controller and multiplexer (MUX End is patterned interface management and maintenance to any server node in N number of server node, improves height The efficiency of density server management server node, simplifies the high density server behaviour to server node Make.

2, the high density server in the embodiment of the present invention is arranged hardware centralized Control and multiplexer (MUX replace Change traditional BMC so that Centralized Controller can be by any server node and prison by multiplexer (MUX Control management terminal is attached, and then realizes image conversion interface in monitoring management terminal, therefore without for each clothes The BMC that business device node configuration is special, reduces high density server and realizes the cost of visualized management, with Time, graphic interface improves the difficulty of high density server operation management, improves the operating experience of user.

3, the monitoring management terminal in the embodiment of the present invention includes showing shape library, it is possible to for monitoring management Terminal calls the display figure corresponding with graphical display information, alleviates the figure being managed server node Computational load.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of monitoring management system in the embodiment of the present invention；

Fig. 2 is the flow chart of a kind of information processing method in the embodiment of the present invention.

Detailed description of the invention

Embodiments provide a kind of data handling system, including: high density server, comprise concentration Controller, multiplexer (MUX and N number of server node, described multiplexer (MUX concentrates control with described respectively Device processed and described N number of server node connect, and N is the integer more than or equal to 2；Monitoring management terminal, logical Cross described Centralized Controller to be connected with described high density server；Wherein, pass through when described Centralized Controller Described multiplexer (MUX makes described management and monitoring terminal and the first server in described N number of server node During node connection, described monitoring management terminal receives and comes from the graphical aobvious of described first server node Show information, and generate according to described graphical display information and show corresponding with described first server node Graphic interface.

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearer, below in conjunction with the present invention Accompanying drawing in embodiment, is clearly and completely described the technical scheme in the embodiment of the present invention, it is clear that Described embodiment is a part of embodiment of the present invention rather than whole embodiments.Based in the present invention Embodiment, those of ordinary skill in the art obtained under not making creative work premise all its His embodiment, broadly falls into the scope of protection of the invention.

The terms "and/or", a kind of incidence relation describing affiliated partner, expression can be deposited In three kinds of relations, such as, A and/or B, can represent: individualism A, there is A and B simultaneously, single Solely there is B these three situation.It addition, character "/" herein, typically represent forward-backward correlation to as if one Plant the relation of "or".

Below in conjunction with the accompanying drawings embodiments of the present invention are described in detail.

As it is shown in figure 1, the embodiment of the present invention provides a kind of monitoring management system, this system includes: high density Server 10 and monitoring management terminal 20, wherein, high density server also comprises Centralized Controller 11, many Road controller 12 and server node 1 to server node N N number of server node, described multichannel control altogether Device 12 processed is connected with described Centralized Controller 11 and described N number of server node respectively by special purpose interface, N is the integer more than or equal to 2；Monitoring management terminal 20 is by Centralized Controller 11 and high density server 10 are connected.

Optionally, in the embodiment of the present invention, monitoring management terminal 20 can also include: display shape library, May be used for the display figure that monitoring management terminal 20 provides corresponding with graphical display information, it is achieved figure Pictureization interface, alleviates the graphics calculations load of the first server node being managed simultaneously.

In actual application, the hardware of this monitoring management terminal 20 can also include input-output equipment, such as The input equipment comprised can be keyboard, mouse, stick, USB device etc., and outut device can have aobvious Show device, printer etc..

Concrete, high density server 10 can also include: monitoring server device, can be with N number of service Device node and Centralized Controller 11 are all connected with, each server in the N number of server node of dynamic monitoring The operational factor of node, and operational factor is sent to Centralized Controller 11, so that Centralized Controller 11 will Operational factor, in order to management personnel check the current state of each server node.

Additionally, the Centralized Controller 11 in this monitoring management system can also gather in high density server 10 The various sensing data in portion, such as temperature, voltage, power consumption, rotation speed of the fan, disk state etc., and respectively saves The running status etc. of point server, and send after processing and make for monitoring management personnel to monitoring management terminal 20 With.

Optionally, high density server 10 can also include: operation firmware, may be located at N number of server In node in each server node, after first server node is connected with monitoring management terminal 20, energy Enough gather the displaying information on screen that first server node is corresponding, to generate image conversion display information transmission monitoring Management terminal.

Certainly, in actual application, high density server 10 can also include: special purpose interface, is used for connecting Connection between multiplexer (MUX 12 and Centralized Controller 11 and N number of server node.This special purpose interface has Body may is that signaling interface, Ethernet interface, serial ports etc..

Optionally, in the embodiment of the present invention, in this monitoring management system in addition to hardware components described above, Its software arranged can include operating in the client application software in monitoring management terminal, operates in concentration Centralized management software on controller, and operate in the virtual pattern display program on server node and void Intending input-output equipment program, the function application of each software will describe in detail in subsequent processes.

In the embodiment of the present invention, N number of server node and the Centralized Controller 11 in high density server 10 Connection status can be remained by special purpose interface with multiplexer (MUX 12.In order to reduce monitoring management system The power consumption of system, can keep between N number of server node and multiplexer (MUX 12 under normal conditions is special It is in non-enabled state with interface, and needs on-line maintenance high density server 10 to comprise as staff N number of server node time, just control the gating letter that multiplexer (MUX 12 sends according to Centralized Controller 11 Number enable corresponding special purpose interface so that first server node is connected with Centralized Controller 11, Jin Eryu Monitoring management terminal 20 sets up communication, runs the information processing method that the embodiment of the present invention provides.

As in figure 2 it is shown, the flow chart of the information processing method of embodiment of the present invention offer.The method can be wrapped Include following steps:

S11: the monitoring management terminal in described monitoring management system sends for monitoring pipe described in connection management The first connectivity request message that the first server node in N number of server node in reason system is connected, Wherein, N is the integer more than or equal to 2；

S12: the Centralized Controller in described monitoring management system receives described first connectivity request message, and Described management and monitoring terminal and described first clothes are set up by the multiplexer (MUX in described monitoring management system Communication connection between business device node；

S13: described first server node generates graphic software platform according at least one video data of self Information, and described graphical display information is sent to described monitoring management terminal；

S14: described monitoring management terminal receive described graphical display information, and according to described at least one Video data calls the display graphic hotsopt in display shape library and shows and described first server node pair The graphic interface answered.

As it was previously stated, the high density server 10 that this monitoring management system includes can pass through Centralized Controller 11 are connected with monitoring management terminal 20.Specifically, before step S11, it is also possible to include following step Rapid:

1) when the monitoring management terminal 20 in described monitoring management system is by network interface and described monitoring pipe When Centralized Controller 11 in reason system is connected, control described Centralized Controller 11 to described monitoring management eventually Server node list corresponding with N number of server node in the end 20 described monitoring management system of transmission；

2) described monitoring management terminal 20 receives described server node list, and saves according to described server Point list determines the first server node that will be attached management in described N number of server node, life Become the first connectivity request message for first server node described in connection management.

In actual applications, when user needs remotely to manage high density server 10, can be by monitoring Start client application software in management terminal 20, and input this high density server 10 Centralized Controller 11 IP address, set up communication by the Centralized Controller 11 in network interface, with high density server 10 Connect, and then Centralized Controller 11 can push back the server node can being managed in high density server 10 List, and server real time execution health status, history log etc., in order to management personnel check respectively The running status of server node.

When management personnel choose management first server by the client application software of monitoring management terminal 20 After nodal function, the first connection request letter can be generated according to the server identification of the first server node selected Breath, so step S11 can pass through wireless network (such as 4G, WiFi etc.) transmit this information to supervise High density server 10 in keyholed back plate reason system.

It follows that carry out S12, this step specifically can include procedure below:

1) Centralized Controller 11 in described monitoring management system is according to the described first connection request letter received Breath, generates gating signal and sends the multiplexer (MUX 12 to described monitoring management system；

2) described multiplexer (MUX 12 enables described first server node according to the described gating signal received Special purpose interface connect with described Centralized Controller 11, and send interrupt signal to described first server save Point；

3) described first server node receives described interrupt signal, starts and is at least the two of idle state Individual application program, sets up the communication with described monitoring management terminal 20 by described at least two application program Connect；Wherein, described at least two application program includes virtual display program and virtual I/O device Program.

Wherein, the Centralized Controller 11 in high density server 10 can receive first even by network interface Connect solicited message, and by the centralized management software run send gating signal enable multiplexer (MUX 12 with Special purpose interface between the first server node being managed, including network, serial ports and control signal etc., makes Obtain first server node and multiplexer (MUX 12 UNICOM, and then connect with Centralized Controller 11.

Further, the interrupting information of generation can be sent to the by Centralized Controller 11 by multiplexer (MUX 12 One server, in order to wake up virtual display program and the virtual I/O device program being in idle state up.

Optionally, in the embodiment of the present invention, receive described interrupt signal at described first server node, open While the dynamic program being in idle state, specifically may include that described virtual display program is set up and institute The communication stating monitoring management terminal 20 connects, by the virtual display corresponding with described first server node Send to described monitoring management terminal 20 after curtain information coding；And described virtual I/O device program builds Vertical being connected with the communication of monitoring management terminal 20, reception is from least one of described monitoring management terminal 20 Input and output instruction.

In actual application, at least two application program being waken up can be by centralized management controller and monitoring pipe Client application software in reason terminal 20 communicates, and can respond the operational order of self terminal, from And user can check the running status, in real time of the first server node being managed in monitoring management terminal 20 The information such as load, daily record, also realizing can be with Remote Installation program, upgrading etc..Such as, receive and respond prison The control management terminal 20 control instruction the consolidating upgrading high density server 10 by the input such as keyboard, mouse Part (such as the BIOS etc. of each server node), high density server 10 is programmed the configuration etc. of upgrading, Realize effect to be equivalent to directly connect display, keyboard, mouse and the USB device of monitoring management terminal 20 Receive on first server node.

Optionally, in the embodiment of the present invention, by the multiplexer (MUX 12 in described monitoring management system After setting up the communication connection between described management and monitoring terminal and described first server node, and start Before being at least two application program of idle state, it is also possible to including:

Described multiplexer (MUX 12 sends reset signal to described first server node, controls described first Server node is restarted；

Basic input-output system BIOS in described first server node and operating system are by described the Virtual screen display information corresponding for described first server node is passed through institute by the serial port of one server State multiplexer (MUX 12 and described Centralized Controller 11 sends to described monitoring management terminal 20, with by prison The display of control management terminal 20 shows the described first server node startup screen message at replay phase, So that the start-up course that user and/or management personnel check first server node is the most normal.

It follows that in S13, first server node can be to utilize the virtual display program and void started Plan input-output equipment program, by graphical display information (including character and figure), is passed by procotol Transport in monitoring management terminal 20.Specifically, virtual display program only need to be to monitoring management terminal 20 Client application software sends the feature of figure to be shown, i.e. video data, as display position, shape, The information such as color.

Further, in S14, monitoring management terminal 20 can according to receive graphical display information, Obtain at least one video data, and then call the display graphic hotsopt and first in the display shape library of terminal Server node graph of a correspondence interface, and then this graphic interface can be shown at terminal display.So, The graphical screen being managed node server can show that Consumer's Experience is just as being managed in management terminal Video card and display it is mounted with on node server.

In actual applications, carry out, i.e. in monitoring management terminal 20 due to the generation of graphic interface Shown that display figure corresponding in shape library completes by the application call of monitoring management terminal 20, and Also word content can be filled in the display figure called, form graphical content and show, therefore alleviate The graphics calculations load of the first server node being managed, reduces the work of high density server 10 Burden.

In the present invention program, use the groups such as Centralized Controller 11, multiplexer (MUX 12 and virtual pattern show Conjunction, only could be normal after operating system due to virtual display program for the scheme of traditional B MC Work, therefore, starts to operating system at the first server node being managed and loads virtual display program During this period of time, BIOS and operating system send start-up course information by serial ports to Centralized Controller 11, Such as self-inspection state and startup information etc., then it is sent in monitoring management terminal 20 by Centralized Controller 11, from And can be with the startup of character mode display first server node in the display of monitoring management terminal 20 Journey, it is simple to user checks start-up course parameter.

And then, virtual display program and virtual I/O device program at first server node load After, Centralized Controller 11 will be managed node server and management terminal UNICOM, user by Ethernet Node server can be managed by graphic interface operation control, significantly improve high density server The difficulty of the visualized O&M of 10, enhances Consumer's Experience, improves monitoring management system simultaneously and takes high density The efficiency of management of business device 10.

Additionally, with in the connection procedure of monitoring management system, Centralized Controller 11 also can will gather height The internal various sensing datas of density server 10 are (such as temperature, voltage, power consumption, rotation speed of the fan, hard disk State etc.) and the running status etc. of each node server process after for monitoring management librarian use, therefore The data in a large number for server node N number of in high density server 10 can be accumulated, by a large amount of numbers According to carrying out statistical analysis, it is possible to increase server node fault diagnosis and the degree of accuracy safeguarded and efficiency, promote User carries out the efficiency of service operation, it is provided that to user's high density server 10 historical data health analysis report Accuse, maintain the good working state of monitoring management system.

Based on same inventive concept, the embodiment of the present invention additionally provides a kind of high density server 10, due to this The principle that high density server 10 solves problem to above-mentioned monitoring management system is similar to information processing method, Therefore the enforcement of this high density server 10 may refer to the enforcement of monitoring management system, in place of repetition no longer Repeat.

Referring still to Fig. 1, embodiments provide a kind of high density server 10, the height shown in Fig. 1 The implication of the term that density server 10 relates to and implementing, is referred to the phase of previous embodiment Close and describe.High density server 10 includes:

N number of server node, N is the integer more than or equal to 2；

Multiplexer (MUX 12, by special purpose interface and each server node in described N number of server node It is connected；

Centralized Controller 11, is connected with described multiplexer (MUX 12, is used for gathering described N number of server joint The parameter information of point, and by described multiplexer (MUX 12 by first in described N number of server node Server node is attached with management and monitoring terminal, so that generate in described management and monitoring terminal and show With described first server node graph of a correspondence interface.

Optionally, this high density server 10 can also include: monitoring server device, with described N number of clothes Business device node and described Centralized Controller 11 are all connected with, and are used for monitoring in described N number of server node each The operational factor of server node, and described operational factor is sent to described Centralized Controller 11, so that Described operational factor and corresponding server node list are sent to described monitoring by described Centralized Controller 11 Management terminal 20.

Additionally, this high density server 10 can also include:

Operation firmware, is positioned at each server node in described N number of server node, for gather with The displaying information on screen of the described first server node that described monitoring management terminal 20 connects.

Monitoring management system in earlier figures 1-Fig. 2 embodiment and the various variation patterns in information processing method With the high density server 10 that instantiation is equally applicable to the present embodiment, by aforementioned to monitoring management system And the detailed description of information processing method, those skilled in the art are it is clear that highly dense in the present embodiment The implementation of degree server 10, so succinct for description, is not described in detail in this.

Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or meter Calculation machine program product.Therefore, the present invention can use complete hardware embodiment, complete software implementation or knot The form of the embodiment in terms of conjunction software and hardware.And, the present invention can use and wherein wrap one or more Computer-usable storage medium containing computer usable program code (include but not limited to disk memory, CD-ROM, optical memory etc.) form of the upper computer program implemented.

The present invention is with reference to method, equipment (system) and computer program product according to embodiments of the present invention The flow chart of product and/or block diagram describe.It should be understood that can by computer program instructions flowchart and / or block diagram in each flow process and/or flow process in square frame and flow chart and/or block diagram and/ Or the combination of square frame.These computer program instructions can be provided to general purpose computer, special-purpose computer, embedding The processor of formula datatron or other programmable data processing device is to produce a machine so that by calculating The instruction that the processor of machine or other programmable data processing device performs produces for realizing at flow chart one The device of the function specified in individual flow process or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions may be alternatively stored in and computer or the process of other programmable datas can be guided to set In the standby computer-readable memory worked in a specific way so that be stored in this computer-readable memory Instruction produce and include the manufacture of command device, this command device realizes in one flow process or multiple of flow chart The function specified in flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, makes Sequence of operations step must be performed to produce computer implemented place on computer or other programmable devices Reason, thus the instruction performed on computer or other programmable devices provides for realizing flow chart one The step of the function specified in flow process or multiple flow process and/or one square frame of block diagram or multiple square frame.

Specifically, the computer program instructions that the information processing method in the embodiment of the present application is corresponding can be by It is stored in CD, hard disk, on the storage medium such as USB flash disk, corresponding with information processing method when in storage medium Computer program instructions when being read by electronic equipment or be performed, comprise the steps:

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions With step: the monitoring management terminal in described monitoring management system sends for monitoring pipe described in connection management The first connectivity request message that the first server node in N number of server node in reason system is connected, right The instruction answered is performed before performing, and comprises the steps: when executed

Optionally, in described storage medium storage and step: the Centralized Controller in monitoring management system connects Receive described first connectivity request message, and set up institute by the multiplexer (MUX in described monitoring management system Stating the communication connection between management and monitoring terminal and described first server node, corresponding computer instruction exists During being specifically performed, specifically include following steps:

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions With step: described first server node receives described interrupt signal, starts and is in idle state at least While the instruction that two application programs are corresponding is performed, comprise the steps: when executed

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions With step: set up described management and monitoring terminal and institute by the multiplexer (MUX in described monitoring management system After stating the communication connection between first server node, and start be in idle state at least two should By program, corresponding instruction is performed before performing, comprises the steps: when executed

Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention Bright spirit and scope.So, if the present invention these amendment and modification belong to the claims in the present invention and Within the scope of its equivalent technologies, then the present invention is also intended to comprise these change and modification.

Claims

1. a monitoring management system, including:

2. the system as claimed in claim 1, it is characterised in that described monitoring management terminal also includes:

3. the system as claimed in claim 1, it is characterised in that described high density server also includes:

4. the system as claimed in claim 1, it is characterised in that described high density server also includes:

5. an information processing method, is applied to monitoring management system, and described method includes:

6. method as claimed in claim 5, it is characterised in that the prison in described monitoring management system Control management terminal sends in the N number of server node in monitoring management system described in the connection management the Before the first connectivity request message that one server node is connected, also include:

7. method as claimed in claim 6, it is characterised in that the concentration in described monitoring management system Controller receives described first connectivity request message, and by the multi-channel control in described monitoring management system The communication connection between described management and monitoring terminal and described first server node set up by device, specifically wraps Include:

8. method as claimed in claim 7, it is characterised in that receive at described first server node Described interrupt signal, while starting at least two application program being in idle state, described method is also Including:

9. method as claimed in claim 7, it is characterised in that by described monitoring management system Multiplexer (MUX set up the communication connection between described management and monitoring terminal and described first server node Afterwards, and before starting at least two application program being in idle state, described method also includes:

10. a high density server, including:

N number of server node, N is the integer more than or equal to 2；