CN211579988U - Remote operation and maintenance system based on running state monitoring - Google Patents

Abstract

The utility model discloses a long-range fortune dimension system based on running state monitoring, this long-range fortune dimension system is accomplished by local acquisition server with the data acquisition and the monitoring of hardware in the computer lab, and send the result of monitoring to the strange land workstation, and gather and monitor the operation index of operating system in and database middleware and accomplish by strange land acquisition server, and then make fortune dimension personnel can obtain the running state about hardware and software in the computer lab simultaneously at the strange land workstation, in case when breaking down, the maintenance of accessible remote operation goes wrong, if remote operation has not been solved, appoint corresponding fortune dimension personnel to the scene again and maintain, realize accomplishing the fortune dimension of many computer labs with less manpower, and the fault handling efficiency is high; the remote operation and maintenance system has the advantages of few components, simple structure, low operation cost, high fault processing efficiency and the like.

Description

Remote operation and maintenance system based on running state monitoring

Technical Field

The utility model discloses a technical field that relates to computer lab fortune dimension especially relates to a long-range fortune dimension system based on running state monitoring.

Background

Various servers, routers, switches, storage arrays and the like are usually placed in a machine room, and after the servers, the routers, the switches and the storage arrays operate for a period of time, faults of large and small sizes inevitably occur.

In order to realize normal operation of equipment in the machine rooms, each machine room is generally required to arrange corresponding operation and maintenance personnel so as to inspect the equipment and maintain the equipment in the machine rooms. However, because the machine rooms are large in number and far away from each other, if each machine room corresponds to a group of operation and maintenance personnel, the problem that manual operation and maintenance cost is high can exist, if a plurality of machine rooms share one group of operation and maintenance personnel, a certain machine room emergency fault often occurs, and because the operation and maintenance personnel cannot arrive at the site in time to perform fault treatment, normal operation of the machine rooms is influenced, and the problem that fault treatment efficiency is low exists.

Therefore, how to develop a novel remote operation and maintenance system to perform operation and maintenance of a machine room with low cost and high timeliness becomes a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a long-range fortune dimension system based on running state monitoring to solve computer lab fortune dimension mode in the past, there is the ageing low scheduling problem of fortune dimension with high costs, fault handling.

The utility model provides a technical scheme specifically does, a long-range fortune dimension system based on running state monitoring, long-range fortune dimension system includes: the system comprises a server, a disk array, network equipment, a local high-end switch, a local acquisition server, a remote high-end switch, a remote acquisition server and a display terminal;

the server, the disk array, the network equipment, the local high-end switch and the local acquisition server are all arranged in the machine room;

a remote management port and a remote management module are integrated in the server, the input end of the management module is in communication connection with the output end of the remote management port, and the output end of the management module is in communication connection with the control end of a CPU in the server;

the first input end of the local high-end switch is respectively in communication connection with the output end of the server, the output end of the disk array and the output end of the network equipment, and the third output end of the local high-end switch is respectively in communication connection with the input end of the remote management port in the server, the control end of the disk array and the control end of the network equipment;

the input end of the local acquisition server is connected with the first output end of the local high-end switch to acquire and monitor hardware data of the server, the disk array and the network equipment, and the output end of the local acquisition server is connected with the second input end of the first high-end switch and is used for transmitting the acquired hardware data;

the remote high-end switch, the remote acquisition server and the display terminal are all arranged in the remote workstation;

the first input end of the remote high-end switch is in communication connection with the second output end of the local high-end switch, and the third output end of the remote high-end switch is in communication connection with the third input end of the local high-end switch for data exchange;

the input end of the remote acquisition server is connected with the first output end of the remote high-end switch to acquire and monitor the operation indexes in an operating system and a database middleware in the server, and the first output end of the remote acquisition server is connected with the three input ends of the remote high-end switch;

and the input end of the display terminal is connected with the second output end of the allopatric high-end switch.

Preferably, the number of the servers, the disk arrays and the network devices is multiple.

Preferably, the local high-end switch and the remote high-end switch are both three-layer switches.

Further preferably, the remote operation and maintenance system based on the operation state monitoring further includes: an alarm;

and the control end of the alarm is respectively connected with the second output end of the allopatric high-end switch and the second output end of the allopatric acquisition server.

The utility model provides a long-range fortune dimension system based on running state monitoring, this long-range fortune dimension system is accomplished by local acquisition server with the data acquisition and the monitoring of hardware in the computer lab, and send the result of monitoring to the strange land workstation, and gather and monitor by strange land acquisition server to the operation index of operating system internal sum database middleware, and then make fortune dimension personnel can obtain the running state about hardware and software in the computer lab simultaneously at the strange land workstation, in case when breaking down, accessible remote operation carries out the maintenance of trouble, if remote operation can not solve, the corresponding fortune dimension personnel of delegating again maintain to the scene, realize accomplishing the fortune dimension of many computer rooms with less manpower, and fault handling efficiency is high.

The utility model provides a long-range fortune dimension system based on running state monitoring, it is few to have the component part, simple structure, and the running cost is low, advantages such as fault handling efficiency height.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a block diagram illustrating a remote operation and maintenance system according to an embodiment of the present disclosure.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus consistent with certain aspects of the invention, as detailed in the appended claims.

In order to solve the problems of high operation and maintenance cost, low failure processing timeliness and the like of the previous machine room operation and maintenance modes, the embodiment provides the remote operation and maintenance system based on the operation state monitoring, and the remote operation and maintenance system can realize the online operation and maintenance of operation and maintenance personnel, so that the simultaneous operation and maintenance of a plurality of machine rooms by a group of operation and maintenance personnel can be realized, and the failure processing efficiency is also remarkably improved.

Referring to fig. 1, the remote operation and maintenance system is mainly composed of a server 1, a disk array 2, a network device 3, a local high-end switch 4, a local acquisition server 5, a remote high-end switch 6, a remote acquisition server 7 and a display terminal 8.

The server 1, the disk array 2, the network device 3, the local high-end switch 4 and the local acquisition server 5 are all arranged in the machine room a, except for a conventional mainboard, a memory bank, a CPU and the like, the server 1 is further integrated with a remote management port and a management module, the input end of the management module is in communication connection with the output end of the remote management port, the output end of the management module is in communication connection with the control end of the CPU in the server 1, and then a remote control instruction can be received through the remote management port, and the management module sends the control instruction to the CPU for corresponding control, such as program or process restart and the like.

A first input end of the local high-end switch 4 is respectively in communication connection with an output end of the server 1, an output end of the disk array 2 and an output end of the network device 3, and a third output end of the local high-end switch 4 is respectively in communication connection with an input end of a remote management port in the server 1, a control end of the disk array 2 and a control end of the network device 3; the input end of the local acquisition server 5 is connected with the first output end of the local high-end switch 4 to acquire and monitor hardware data of the server 1, the disk array 2 and the network equipment 3, the local acquisition server 5 acquires operation data of the server 1, the disk array 2 and the network equipment 3 through the local high-end switch 4, wherein the operation data comprises memory occupancy rate, operation temperature and the like, and the output end of the local acquisition server 5 is connected with the second input end of the local high-end switch 4 and is used for transmitting the acquired hardware data.

The remote high-end switch 6, the remote acquisition server 7 and the display terminal 8 are all arranged in a remote workstation B, wherein a first input end of the remote high-end switch 6 is connected with a second output end of the local high-end switch 4, a third output end of the remote high-end switch 6 is connected with a third input end of the local high-end switch 4 for data exchange between the machine room and the remote workstation, an input end of the remote acquisition server 7 is connected with a first output end of the remote high-end switch 6 for operation index acquisition and monitoring in an operating system and a database middleware in the server 1, a first output end of the remote acquisition server 7 is connected with a third input end of the remote high-end switch 6, an input end of the display terminal 8 is connected with a second output end of the remote high-end switch 6, the display terminal 8 displays information acquired by the local acquisition server 5 and the remote acquisition server 7, and operation and maintenance personnel can conveniently and visually know the running system of hardware and software.

The specific working process of the remote operation and maintenance system based on the operation state monitoring is as follows: the hardware data of the server 1, the disk array 2 and the network equipment 3 in the machine room are collected and monitored by the local collection server 5 through the local high-end switch 4, the data and the monitoring structure collected by the local collection server 5 are exchanged with the remote high-end switch 6 through the local high-end switch 4 and are sent to a remote workstation, wherein the monitoring result is sent to the remote collection server 7, the specific data information is sent to the display terminal 8 for displaying, the remote collection server 7 collects and monitors the operation indexes of the middleware in the operating system and the database in the server 1, the specific detection data is also displayed through the display terminal 8, the remote collection server 7 reminds the operation and maintenance personnel according to the monitoring result of the software and the monitoring result sent by the local collection server 5, and the operation and maintenance personnel can send corresponding operation and maintenance instructions through the remote collection server 7, the instructions are sent to the server 1, the disk array 2 and the network equipment 3 through the remote high-end switch 6 and the local high-end switch 4, so that the corresponding instruction actions are carried out, and self-repairing is completed. The server 1 can complete self-repair mainly by means of a remote management port and a management module integrated therein.

According to the remote operation and maintenance system based on the operation state monitoring, the data collection and monitoring of hardware are carried out by the local collection server, the collection and monitoring of software data are carried out by the remote collection server, the problem of large construction amount caused by complicated remote wiring required by the hardware data collection and monitoring can be avoided, the hardware data and the software data are collected by being divided into the two collection servers, the performance requirement on the collection servers can be effectively reduced, and the transformation cost is reduced.

In a specific embodiment, the management module may be an IBM IMM management module.

In the remote operation and maintenance system based on the operation state monitoring, a plurality of servers 1, disk arrays 2 and network devices 3 can be arranged according to actual situation requirements to meet power distribution requirements.

The local high-end switch 4 and the remote high-end switch 6 can both adopt three-layer switches to meet the data exchange requirement in the operation and maintenance process.

In order to further improve the timeliness of operation and maintenance, as an improvement of the technical scheme, referring to fig. 1, an alarm 9 is further arranged in a remote operation and maintenance system based on operation state monitoring, wherein a control end of the alarm 9 is respectively connected with a second output end of the remote high-end switch 6 and a second output end of the remote acquisition server 7, and when any one of the local acquisition server 5 and the remote high-end switch 6 finds an abnormal monitoring, the alarm 9 can be controlled to give an alarm to remind an operation and maintenance person to perform data inspection and perform maintenance operation in time.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It is to be understood that the present invention is not limited to what has been described above, and that various modifications and changes may be made without departing from the scope thereof. The scope of the present invention is limited only by the appended claims.

Claims (4)

1. A remote operation and maintenance system based on operation state monitoring, which is characterized in that the remote operation and maintenance system comprises: the system comprises a server (1), a disk array (2), network equipment (3), a local high-end switch (4), a local acquisition server (5), a remote high-end switch (6), a remote acquisition server (7) and a display terminal (8);

the server (1), the disk array (2), the network equipment (3), the local high-end switch (4) and the local acquisition server (5) are all arranged in the machine room;

a remote management port and a remote management module are integrated in the server (1), the input end of the management module is in communication connection with the output end of the remote management port, and the output end of the management module is in communication connection with the control end of a CPU in the server (1);

a first input end of the local high-end switch (4) is respectively in communication connection with an output end of the server (1), an output end of the disk array (2) and an output end of the network device (3), and a third output end of the local high-end switch (4) is respectively in communication connection with an input end of a remote management port in the server (1), a control end of the disk array (2) and a control end of the network device (3);

the input end of the local acquisition server (5) is connected with the first output end of the local high-end switch (4) to acquire and monitor hardware data of the server (1), the disk array (2) and the network equipment (3), and the output end of the local acquisition server (5) is connected with the second input end of the local high-end switch (4) and is used for transmitting the acquired hardware data;

the remote high-end switch (6), the remote acquisition server (7) and the display terminal (8) are all arranged in a remote workstation;

a first input end of the remote high-end switch (6) is in communication connection with a second output end of the local high-end switch (4), and a third output end of the remote high-end switch (6) is in communication connection with a third input end of the local high-end switch (4) for data exchange;

the input end of the remote acquisition server (7) is connected with the first output end of the remote high-end switch (6) to acquire and monitor the operation indexes in an operating system and a database middleware in the server (1), and the first output end of the remote acquisition server (7) is connected with the three input ends of the remote high-end switch (6);

and the input end of the display terminal (8) is connected with the second output end of the allopatric high-end switch (6).

2. The remote operation and maintenance system based on operation state monitoring as claimed in claim 1, wherein the number of the servers (1), the disk arrays (2) and the network devices (3) is multiple.

3. The remote operation and maintenance system based on operation state monitoring as claimed in claim 1, wherein the local high-end switch (4) and the ex-situ high-end switch (6) are both three-layer switches.

4. The remote operation and maintenance system based on operation state monitoring as claimed in claim 1, further comprising: an alarm (9);

and the control end of the alarm (9) is respectively connected with the second output end of the allopatric high-end switch (6) and the second output end of the allopatric acquisition server (7).

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