CN114116395B - Aging room power supply line power overload protection method, system and device - Google Patents

Abstract

The invention provides a power overload protection method, a system and a device for a power supply line of an aging room, wherein the method comprises the following steps: building a power consumption monitoring server, and enabling the power consumption monitoring server to be respectively connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled; deploying power consumption monitoring software for the power consumption monitoring server; setting a patrol period by configuring power consumption monitoring software; after the power consumption monitoring software reaches the inspection period, acquiring the total power consumption of the test server in the aging room to be inspected through a network; and comparing the total power consumption with an early warning threshold value, and sending out overload protection early warning according to a comparison result. The invention can automatically monitor the total power consumption required by the server in the aging room in real time and pre-warn the overload of the power supply line of the aging room according to the total power consumption.

Description

Aging room power supply line power overload protection method, system and device

Technical Field

The invention relates to the technical field of power overload protection, in particular to a power overload protection method, a system and a device for a power supply line of an aging room.

Background

In the current server manufacturing enterprises, after the server is assembled, the server is placed in an aging room to be connected with a diagnosis aging test system for testing, in the testing process, the server is subjected to pressure test, in the pressure test process, the power consumption of the server can be increased along with the increase of pressure, the power consumption condition of one aging room also fluctuates along with the aging process of the server, and because the power supply capacity of the aging room is fixed, the power which can be provided is fixed, when the required power consumption in the aging room is higher than the maximum power of the aging room design, the tripping protection action of the power supply circuit of the aging room can be triggered, so that all the servers are powered off, and the normal aging process of the server is affected.

At present, whether the power of the power supply line of the aging room is overloaded is judged, and the judgment is generally carried out according to a manual inspection mode of an ammeter of the aging room. However, the electricity meter of the aging room is patrolled by adopting a manual timing patrol method, so that the fluctuation condition of the total power consumption of the server in the aging room can not be found in time, and the tripping protection action of the power supply circuit of the aging room is avoided.

Disclosure of Invention

Aiming at the problems, the invention aims to provide a power overload protection method, a system and a device for a power supply line of an aging room, which can automatically monitor the total power consumption required by a server in the aging room in real time and early warn the power overload of the power supply line of the aging room according to the total power consumption.

The invention aims to achieve the aim, and the aim is achieved by the following technical scheme: a power overload protection method for a power supply line of an aging room comprises the following steps:

building a power consumption monitoring server, and enabling the power consumption monitoring server to be respectively connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled;

deploying power consumption monitoring software for the power consumption monitoring server;

setting a patrol period by configuring power consumption monitoring software;

after the power consumption monitoring software reaches the inspection period, acquiring the total power consumption of the test server in the aging room to be inspected through a network;

and comparing the total power consumption with an early warning threshold value, and sending out overload protection early warning according to a comparison result.

Further, the deploying power consumption monitoring software for the power consumption monitoring server includes:

installing an ipmitool tool on a power consumption monitoring server;

and deploying power consumption monitoring software and information reminding software on the power consumption monitoring server.

Further, the setting of the patrol period by configuring the power consumption monitoring software includes:

and setting the patrol period to 5 minutes and setting an early warning threshold value through configuration files of the power consumption monitoring software.

Further, the obtaining, through the network, the total power consumption of the test server in the aging room to be inspected includes:

the power consumption monitoring software obtains the IP addresses of BMCs of all test servers in the aging room to be inspected currently from an information release website of a preset aging test system by utilizing a crawler technology;

performing out-of-band execution according to the IP address of the BMC of the test server by using an ipmitool tool to obtain a power consumption value of the test server;

and (3) training all the test servers in the aging room to be patrolled and examined once to obtain power consumption values of all the test servers, and accumulating to obtain the total power consumption of the test servers in the aging room to be patrolled and examined.

Further, comparing the total power consumption with an early warning threshold, and sending out overload protection early warning according to a comparison result, wherein the method comprises the following steps:

judging whether the total power consumption of the test server in the aging room to be inspected reaches an early warning threshold value, if so, determining corresponding early warning information according to the level of the early warning threshold value;

and transmitting the early warning information to information reminding software, and sending an overload protection early warning short message to a preset mobile terminal by the information reminding software.

Further, the early warning threshold value comprises a first early warning threshold value, a second early warning threshold value and a third early warning threshold value; the primary early warning threshold is 225000W, the secondary early warning threshold is 200000W, and the tertiary early warning threshold is 187500W.

Further, the power consumption monitoring software adopts powerscansvr, and the information reminding software adopts wassvr.

Correspondingly, the invention also discloses a power overload protection system of the power supply line of the aging room, which comprises the following components: the power consumption monitoring server is connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled and examined respectively;

the deployment unit is used for deploying the power consumption monitoring software for the power consumption monitoring server;

the configuration unit is used for setting a patrol period by configuring the power consumption monitoring software;

the monitoring unit is used for acquiring the total power consumption of the test server in the aging room to be inspected through a network after the power consumption monitoring software reaches the inspection period;

and the early warning unit is used for comparing the total power consumption with an early warning threshold value and sending out overload protection early warning according to a comparison result.

Further, the monitoring unit includes:

the address acquisition module is used for acquiring the IP addresses of BMCs of all the test servers in the aging room to be inspected currently from an information release website of a preset aging test system by using a crawler technology through power consumption monitoring software;

the power consumption acquisition module is used for carrying out-of-band execution according to the IP address of the BMC of the test server by using the ipmitool tool so as to acquire the power consumption value of the test server;

and the calculation module is used for obtaining the power consumption values of all the test servers after training all the test servers in the aging room to be patrolled and examined once, and accumulating the power consumption values to obtain the total power consumption of the test servers in the aging room to be patrolled and examined.

Correspondingly, the invention discloses a power overload protection device for a power supply line of an aging room, which comprises:

the memory is used for storing an overload protection program of the power supply line of the aging room;

a processor, configured to implement the steps of the burn-in chamber power supply line power overload protection method according to any one of the preceding claims when executing the burn-in chamber power supply line power overload protection program.

Compared with the prior art, the invention has the beneficial effects that: the invention discloses a power overload protection method, a system and a device for a power supply line of an aging room, which can timely and effectively discover the fluctuation condition of the total power consumption of a server in a specific aging room and avoid the influence of tripping of the power supply line on the test progress of the server in the whole aging room due to overhigh power consumption.

Under the condition that no additional equipment is needed, the total power consumption of the server in the aging room is detected by using the machine to be detected in the aging room, whether the total power consumption in the aging room exceeds an early warning value or not is detected in real time, and a basis for preventing the tripping of a circuit is provided for staff.

It can be seen that the present invention has outstanding substantial features and significant advances over the prior art, as well as the benefits of its implementation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flow chart of a method according to a first embodiment of the present invention.

Fig. 2 is a flow chart of a method according to a second embodiment of the present invention.

Fig. 3 is a system configuration diagram of a third embodiment of the present invention.

In the figure, 1 is a building unit; 2 is a deployment unit; 3 is a configuration unit; 4 is a monitoring unit; 5 is an early warning unit; 41 is an address acquisition module; 42 is a power consumption acquisition module; 43 is the calculation module.

Detailed Description

The invention provides a power overload protection method for an aging room power supply line, wherein in the prior art, whether the power of the aging room power supply line is overloaded or not is judged, and the judgment is usually carried out according to a manual inspection mode of an electric meter of the aging room. However, the electricity meter of the aging room is patrolled by adopting a manual timing patrol method, so that the fluctuation condition of the total power consumption of the server in the aging room can not be found in time, and the tripping protection action of the power supply circuit of the aging room is avoided.

The power overload protection method for the power supply line of the aging room provided by the invention comprises the steps of firstly setting a patrol period by configuring the power consumption monitoring software, and obtaining the total power consumption of the test server in the aging room to be patrol by the power consumption monitoring software after the power consumption monitoring software reaches the patrol period. And finally, comparing the total power consumption with an early warning threshold value, and sending out overload protection early warning according to a comparison result to inform related staff to carry out pause test on partial machines in the aging room or adjust to other aging rooms for testing so as to avoid line tripping. Therefore, the invention utilizes the machine to be detected in the aging room to detect the total power consumption of the server in the aging room, detects whether the total power consumption in the aging room exceeds the early warning value in real time, and provides a basis for preventing the tripping of the circuit for the staff.

For better understanding of the present solution, the terms related to the present invention are explained as follows:

aging chamber: the assembled server performs a diagnostic burn-in test room.

Diagnostic burn-in test system: in the system for performing diagnostic test on the server, the server to be diagnosed needs to be connected into a diagnostic aging test network, and a network port and a BMC management port are both connected into the diagnostic aging system network.

BMC and IPMI: the base plate management controller and the intelligent platform management interface are basic core function subsystems of the server and are responsible for the core functions of hardware state management, operating system management, health state management, power consumption management and the like of the server. Such as by monitoring the temperature, voltage, fans, power supplies, etc. of the system and making corresponding adjustments to ensure that the system is in a healthy state.

ipmitool: the system is an ipmi platform management tool in a command line mode, which can be used in a linux system, supports the ipmi 1.5 specification (the latest specification is ipmi 2.0), and can realize the functions of acquiring information of a sensor, displaying log content of the system, remotely switching on and off a network and the like.

The diagnosis aging test system publishes website to external information: the website externally displays the positions of all the test machines in the aging room at present, and collects the information such as the IP of the test machine connected to the diagnosis network and the IP of the BMC management port.

The invention is described in further detail below with reference to the drawings and the detailed description. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one:

as shown in fig. 1, the embodiment provides a power overload protection method for a power supply line of an aging room, which includes the following steps:

s1: and building a power consumption monitoring server, and enabling the power consumption monitoring server to be respectively connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled and examined in a network.

S2: and deploying power consumption monitoring software for the power consumption monitoring server.

The method specifically comprises the following steps: installing an ipmitool tool on a power consumption monitoring server; and deploying power consumption monitoring software and information reminding software on the power consumption monitoring server. The power consumption monitoring software adopts powerscansvr, and the information reminding software adopts wassvr.

S3: the patrol period is set by configuring the power consumption monitoring software.

And setting the patrol period to 5 minutes and setting an early warning threshold value through configuration files of the power consumption monitoring software. Specifically, the early warning threshold value comprises a first early warning threshold value, a second early warning threshold value and a third early warning threshold value; the primary early warning threshold is 225000W, the secondary early warning threshold is 200000W, and the tertiary early warning threshold is 187500W.

S4: and after the power consumption monitoring software reaches the inspection period, acquiring the total power consumption of the test server in the aging room to be inspected through a network.

After the power consumption monitoring software reaches the inspection period, the power consumption monitoring software firstly obtains the IP addresses of BMCs of all the test servers in the aging room to be inspected currently from an information release website of the preset aging test system by utilizing a crawler technology. Then, carrying out-of-band execution by using an ipmitool tool according to the IP address of the BMC of the test server so as to obtain the power consumption value of the test server; and finally, training all the test servers in the aging room to be patrolled and examined once to obtain power consumption values of all the test servers, and accumulating to obtain the total power consumption of the test servers in the aging room to be patrolled and examined.

S5: and comparing the total power consumption with an early warning threshold value, and sending out overload protection early warning according to a comparison result.

The method specifically comprises the following steps: judging whether the total power consumption of the test server in the aging room to be inspected reaches an early warning threshold value, if so, determining corresponding early warning information according to the level of the early warning threshold value; and then the early warning information is transmitted to information reminding software, and the information reminding software sends out overload protection early warning short messages to a preset mobile terminal.

The embodiment provides a power overload protection method for a power supply line of an aging room, which can timely and effectively find out the fluctuation condition of the total power consumption of a server in a specific aging room, detect whether the total power consumption in the aging room exceeds an early warning value in real time, provide a basis for preventing the tripping of the line for workers, and avoid the influence of the tripping of the power supply line on the test progress of the server in the whole aging room due to the overhigh power consumption.

Embodiment two:

based on the first embodiment, as shown in fig. 2, the invention also discloses a power overload protection method for the power supply line of the aging room, which specifically comprises the following steps:

step one: 1 power consumption monitoring server is built, the network configuration of the server is that the server can be connected with a test server through a connection diagnosis aging test system, and websites which can release information to the outside of the aging test system can be normally accessed.

Step two: an ipmitool tool is installed.

Step three: and deploying power consumption monitoring software (powerscansvr) and information reminding software (wasrnsvr) on the power consumption monitoring server.

Step four: a configuration file of the power consumption monitoring software is configured, and the patrol interval is described in the file. The inspection interval is set to be 5 minutes, and an early warning threshold is set, wherein the early warning threshold comprises a primary early warning threshold, a secondary early warning threshold and a tertiary early warning threshold; the primary early warning threshold is 225000W, the secondary early warning threshold is 200000W, and the tertiary early warning threshold is 187500W.

Step five: when the power consumption monitoring software (powerscansvr) reaches the patrol interval, the IP addresses of BMCs of all test servers in the aging room which are currently required to be patrolled are obtained from a website which externally issues information from the aging test system by utilizing a crawler technology.

Step six: after the IP information of the server BMC to be tested is obtained. And carrying out-of-band execution by using the ipmitool to obtain the total power consumption value of the server.

Taking a server with the position of the K15 aging room server in S08-A07 as an example, the total power consumption is 702Watts, and the following command is adopted: ipmitool-I lanplus-H10.0.114.34-U serveradmin-Pserveradminsdr list |grep-itotal_Power|awk-F "|" '{ print $2}'.

Step seven: and (3) training the servers in the aging room for one time to obtain power consumption values of all the servers, and accumulating the power consumption values to obtain the total power consumption of all the servers in the aging room.

Step eight: and comparing the calculated total power consumption of all servers of the aging room with an early warning threshold, and carrying out early warning on the level reached after the calculated total power consumption reaches the trigger early warning threshold. And the early warning information is transmitted to information reminding software (warning vr), and the information reminding software sends a short message to inform related staff to stop testing aiming at partial servers in the aging room or adjust to other aging rooms for testing, so that line tripping is avoided.

The embodiment provides a power overload protection method for a power supply line of an aging room, which can timely and effectively find out the fluctuation condition of the total power consumption of a server in a specific aging room, detect whether the total power consumption in the aging room exceeds an early warning value in real time, provide a basis for preventing the tripping of the line for workers, and avoid the influence of the tripping of the power supply line on the test progress of the server in the whole aging room due to the overhigh power consumption.

Embodiment III:

based on the first embodiment, as shown in fig. 3, the invention also discloses a power overload protection system for the power supply line of the aging room, comprising: a building unit 1, a deployment unit 2, a configuration unit 3, a monitoring unit 4 and an early warning unit 5.

The setting up unit 1 is used for setting up a power consumption monitoring server, and enabling the power consumption monitoring server to be respectively connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled and examined in a network.

And the deployment unit 2 is used for deploying the power consumption monitoring software for the power consumption monitoring server. The deployment unit 2 is specifically configured to: installing an ipmitool tool on a power consumption monitoring server; and deploying power consumption monitoring software and information reminding software on the power consumption monitoring server.

A configuration unit 3 for setting a patrol period by configuring the power consumption monitoring software. The configuration unit 3 is specifically configured to: and setting the patrol period to 5 minutes and setting an early warning threshold value through configuration files of the power consumption monitoring software.

And the monitoring unit 4 is used for acquiring the total power consumption of the test server in the aging room to be inspected through a network after the power consumption monitoring software reaches the inspection period. The monitoring unit 4 specifically includes: an address acquisition module 41, a power consumption acquisition module 42 and a calculation module 43. The address obtaining module 41 is configured to obtain, by using a power consumption monitoring software, IP addresses of BMCs of all test servers in an aging room to be currently patrolled and examined from an information publishing website of a preset aging test system by using a crawler technology; the power consumption obtaining module 42 is configured to perform out-of-band execution according to an IP address of the BMC of the test server by using the ipmitool tool, so as to obtain a power consumption value of the test server; the calculation module 43 is configured to rotate all the test servers in the aging room to be inspected for one time to obtain power consumption values of all the test servers, and accumulate the power consumption values to obtain total power consumption of the test servers in the aging room to be inspected.

And the early warning unit 5 is used for comparing the total power consumption with an early warning threshold value and sending out overload protection early warning according to a comparison result. The early warning unit 5 is specifically configured to: judging whether the total power consumption of the test server in the aging room to be inspected reaches an early warning threshold value, if so, determining corresponding early warning information according to the level of the early warning threshold value; and the early warning information is transmitted to information reminding software, and the information reminding software sends overload protection early warning short messages to a preset mobile terminal.

The embodiment provides an aging room power supply line power overload protection system, which can automatically monitor the total power consumption required by a server in an aging room in real time and early warn the power overload of the aging room power supply line according to the total power consumption.

Embodiment four:

the embodiment discloses a power overload protection device for a power supply line of an aging room, which comprises a processor and a memory; the processor executes the aging room power supply line power overload protection program stored in the memory to realize the following steps:

1. and building a power consumption monitoring server, and enabling the power consumption monitoring server to be respectively connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled and examined in a network.

2. And deploying power consumption monitoring software for the power consumption monitoring server.

3. The patrol period is set by configuring the power consumption monitoring software.

4. And after the power consumption monitoring software reaches the inspection period, acquiring the total power consumption of the test server in the aging room to be inspected through a network.

5. And comparing the total power consumption with an early warning threshold value, and sending out overload protection early warning according to a comparison result.

Further, the power overload protection device for the power supply line of the aging room in this embodiment may further include:

the input interface is used for acquiring an externally imported aging room power supply line power overload protection program, storing the acquired aging room power supply line power overload protection program into the memory, and also can be used for acquiring various instructions and parameters transmitted by external terminal equipment and transmitting the various instructions and parameters into the processor so that the processor can develop corresponding processing by utilizing the various instructions and parameters. In this embodiment, the input interface may specifically include, but is not limited to, a USB interface, a serial interface, a voice input interface, a fingerprint input interface, a hard disk reading interface, and the like.

And the output interface is used for outputting various data generated by the processor to the terminal equipment connected with the output interface so that other terminal equipment connected with the output interface can acquire various data generated by the processor. In this embodiment, the output interface may specifically include, but is not limited to, a USB interface, a serial interface, and the like.

And the communication unit is used for establishing remote communication connection between the aging room power supply line power overload protection device and the external server so that the aging room power supply line power overload protection device can mount the image file to the external server. In this embodiment, the communication unit may specifically include, but is not limited to, a remote communication unit based on a wireless communication technology or a wired communication technology.

And the keyboard is used for acquiring various parameter data or instructions input by a user by knocking the key cap in real time.

And the display is used for running the related information of the short-circuit positioning process of the power supply line of the server to display in real time.

A mouse may be used to assist a user in inputting data and to simplify user operations.

The embodiment provides an ageing room power supply line power overload protection device, which can timely and effectively find the fluctuation condition of the total power consumption of a specific ageing room server, detect whether the total power consumption in the ageing room exceeds an early warning value in real time, provide a basis for preventing line tripping for staff, and avoid the influence of the power supply line tripping on the server test progress of the whole ageing room due to overhigh power consumption.

In summary, the invention can automatically monitor the total power consumption required by the server in the aging room in real time, and pre-warn the overload of the power supply line power of the aging room according to the total power consumption.

In this specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, so that the same or similar parts between the embodiments are referred to each other. For the method disclosed in the embodiment, since it corresponds to the system disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided by the present invention, it should be understood that the disclosed systems, and methods may be implemented in other ways. For example, the system embodiments described above are merely illustrative, e.g., the division of the elements is merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple elements or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interface, system or unit indirect coupling or communication connection, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional module in the embodiments of the present invention may be integrated in one processing unit, or each module may exist alone physically, or two or more modules may be integrated in one unit.

Similarly, each processing unit in the embodiments of the present invention may be integrated in one functional module, or each processing unit may exist physically, or two or more processing units may be integrated in one functional module.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The power overload protection method, the system and the device for the power supply line of the aging room provided by the invention are described in detail. The principles and embodiments of the present invention have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present invention and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the invention can be made without departing from the principles of the invention and these modifications and adaptations are intended to be within the scope of the invention as defined in the following claims.

Claims (8)

1. The power overload protection method for the power supply line of the aging room is characterized by comprising the following steps of:

building a power consumption monitoring server, and enabling the power consumption monitoring server to be respectively connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled;

deploying power consumption monitoring software for the power consumption monitoring server;

setting a patrol period by configuring power consumption monitoring software;

after the power consumption monitoring software reaches the inspection period, acquiring the total power consumption of the test server in the aging room to be inspected through a network;

comparing the total power consumption with an early warning threshold value, and sending out overload protection early warning according to a comparison result;

the obtaining, through a network, the total power consumption of the test server in the aging room to be inspected includes:

the power consumption monitoring software obtains the IP addresses of BMCs of all test servers in the aging room to be inspected currently from an information release website of a preset aging test system by utilizing a crawler technology;

performing out-of-band execution according to the IP address of the BMC of the test server by using an ipmitool tool to obtain a power consumption value of the test server;

and polling all the test servers in the aging room to be patrolled and examined once to obtain power consumption values of all the test servers, and accumulating to obtain the total power consumption of the test servers in the aging room to be patrolled and examined.

2. The burn-in room power line power overload protection method of claim 1, wherein deploying power consumption monitoring software for a power consumption monitoring server comprises:

installing an ipmitool tool on a power consumption monitoring server;

and deploying power consumption monitoring software and information reminding software on the power consumption monitoring server.

3. The method for protecting power overload of power supply line of aging room according to claim 2, wherein said setting a patrol period by configuring power consumption monitoring software comprises:

and setting the patrol period to 5 minutes and setting an early warning threshold value through configuration files of the power consumption monitoring software.

4. The method for protecting power overload of a power supply line of an aging room according to claim 1, wherein comparing the total power consumption with an early warning threshold value, and sending out an overload protection early warning according to the comparison result, comprises: judging whether the total power consumption of the test server in the aging room to be inspected reaches an early warning threshold value, if so, determining corresponding early warning information according to the level of the early warning threshold value;

and transmitting the early warning information to information reminding software, and sending an overload protection early warning short message to a preset mobile terminal by the information reminding software.

5. The method for protecting power overload of a power supply line of an aging room according to claim 4, wherein the early warning threshold comprises a primary early warning threshold, a secondary early warning threshold and a tertiary early warning threshold; the primary early warning threshold is 225000W, the secondary early warning threshold is 200000W, and the tertiary early warning threshold is 187500W.

6. The burn-in room power line power overload protection method of claim 2 wherein said power consumption monitoring software employs powerscansvr and said information alert software employs warnsvr.

7. An aging room power line power overload protection system, comprising:

the power consumption monitoring server is connected with an information release website of a preset aging test system and a test server in an aging room to be patrolled and examined respectively;

the deployment unit is used for deploying the power consumption monitoring software for the power consumption monitoring server;

the configuration unit is used for setting a patrol period by configuring the power consumption monitoring software;

the monitoring unit is used for acquiring the total power consumption of the test server in the aging room to be inspected through a network after the power consumption monitoring software reaches the inspection period;

the early warning unit is used for comparing the total power consumption with an early warning threshold value and sending out overload protection early warning according to a comparison result;

the monitoring unit includes:

the address acquisition module is used for acquiring the IP addresses of BMCs of all the test servers in the aging room to be inspected currently from an information release website of a preset aging test system by using a crawler technology through power consumption monitoring software;

the power consumption acquisition module is used for carrying out-of-band execution according to the IP address of the BMC of the test server by using the ipmitool tool so as to acquire the power consumption value of the test server;

and the calculation module is used for polling all the test servers in the aging room to be patrolled and examined once to obtain power consumption values of all the test servers, and accumulating the power consumption values to obtain the total power consumption of the test servers in the aging room to be patrolled and examined.

8. An aging room power supply line power overload protection device, comprising:

the memory is used for storing an overload protection program of the power supply line of the aging room;

a processor for implementing the steps of the burn-in chamber power supply line power overload protection method according to any one of claims 1 to 6 when executing the burn-in chamber power supply line power overload protection program.