CN114490213A - Method, system, device and storage medium for monitoring and diagnosing computer mainboard faults - Google Patents

Abstract

The application relates to a monitoring and diagnosing method, a system, a device and a storage medium for computer mainboard faults, which belong to the field of computer fault processing, wherein the method comprises the steps of obtaining and storing mainboard operation data after a mainboard is electrified; judging whether the mainboard has a fault or not based on the mainboard operation data and a prestored threshold value table; and when the main board breaks down, calling and outputting the main board operation data. The output mainboard operation data is convenient for a user or a maintenance technician of the computer to obtain, so that the root cause of the mainboard fault is judged through the mainboard operation data. The method and the device have the effect of facilitating timely repair of the computer.

Description

Method, system, device and storage medium for monitoring and diagnosing computer mainboard faults

Technical Field

The present invention relates to the field of computer fault processing, and in particular, to a method, a system, an apparatus, and a storage medium for monitoring and diagnosing a computer motherboard fault.

Background

With the development of information technology, computers become indispensable electronic devices for every family and even every individual, and the computers are frequently used in life and work. However, the computer is also easy to damage and frequently fails. Since computer users do not usually know how to repair the computer, only professional repairers are required to repair the computer.

In real life, there are two general ways to repair computers. One is that the user sends the computer to the maintenance point, and the maintenance technician detects the computer and then carries on maintenance; the other is that the maintenance worker carries the maintenance tool to the residence of the user to detect and maintain the computer.

For the two maintenance methods, the inventor thinks that the user usually needs work or study, and is difficult to send the computer to the maintenance point at once, and the maintenance staff needs to carry a large number of maintenance tools to the user because the maintenance staff is not aware of the computer failure, and if the failure cause is not detected, the tools need to be replaced, and secondary detection is carried out. Therefore, the two modes are not easy to repair the computer in time, and the use of the user is not influenced.

Disclosure of Invention

In order to facilitate timely repair of a computer, the invention provides a method, a system, a device and a storage medium for monitoring and diagnosing computer mainboard faults.

In a first aspect, the method for monitoring and diagnosing a fault of a computer motherboard provided by the present application adopts the following technical scheme:

a monitoring and diagnosing method for computer mainboard faults comprises the following steps:

after the mainboard is electrified, obtaining and storing mainboard operation data;

judging whether the mainboard has a fault or not based on the mainboard operation data and a prestored threshold value table;

and when the main board breaks down, calling and outputting the main board operation data.

By adopting the technical scheme, on one hand, whether the mainboard fails or not is monitored by utilizing the mainboard operation data acquired in real time and the preset threshold value table, so that the mainboard is found out at the first time when the mainboard is abnormal or fails; in the second aspect, after the mainboard is found to be out of order, the mainboard operation data of the mainboard is output, so that a user or a maintenance technician of the computer can conveniently estimate and judge the fault reason of the mainboard according to the mainboard operation data, and the computer can be conveniently repaired in time.

Optionally, the motherboard operating data includes a CPU temperature, a motherboard input voltage, a motherboard input current, and BIOS data; the threshold table comprises a temperature threshold section, an input voltage threshold section, an input current threshold section and a BIOS standard threshold;

the step of judging whether the mainboard is in fault or not based on the mainboard operation data and a pre-stored threshold value table comprises the following steps:

judging whether the CPU temperature meets the temperature threshold section, whether the mainboard input voltage meets the input voltage threshold section, whether the mainboard input current meets the input current threshold section and whether each sub-data in the BIOS data meets a corresponding sub-standard threshold in the BIOS standard threshold;

if the two are consistent, judging that the main board is not in fault; otherwise, the main board is considered to be in fault.

By adopting the technical scheme, each item of data in the mainboard operation data is compared with the corresponding threshold value section or threshold value in the threshold value table, and as long as one item of data is not matched with the corresponding threshold value section or threshold value, the mainboard fault is considered. On one hand, the CPU temperature, the mainboard input voltage, the mainboard input current and the BIOS data all belong to important data of the mainboard, and no matter which one is abnormal, the mainboard can be determined to have or be about to have a fault, so that the accuracy of monitoring and diagnosis is improved conveniently; on the other hand, the abnormity of the mainboard can be conveniently found in time, so that the operation data of the mainboard can be output in time, and the computer can be conveniently repaired in time.

Optionally, when the motherboard fails, the step of retrieving and outputting the motherboard operating data includes:

judging whether the mainboard is powered off or not based on the mainboard input voltage and the mainboard input current;

when the mainboard is not powered off, calling a pre-stored maintenance contact person mode and mainboard operation data, and transmitting the mainboard operation data to a corresponding maintenance contact person through the maintenance contact person mode;

and when the mainboard is powered off, calling the mainboard operation data and transmitting the mainboard operation data to a user.

By adopting the technical scheme, different mainboard operation data output modes are selected according to the power-on and power-off states of the mainboard. When the mainboard is not powered off, the mainboard operation data can be transmitted to the outside through a network cable or a local area network of a computer at a high probability. Therefore, the computer can be used for transmitting the mainboard operation data to the maintenance contact person, and the maintenance contact person can repair the computer in time. When the mainboard outage, can't utilize the computer to transmit mainboard operating data, give the user with mainboard operating data transmission this moment, on the one hand, the user is nearer apart from the computer, can transmit mainboard operating data for the user through wireless modes such as wifi or bluetooth, the mainboard operating data's of being convenient for timely output.

Optionally, before the step of transmitting the motherboard operating data to the corresponding maintenance contact through the maintenance contact, the method further includes:

calling a prestored fault table; the fault table stores a plurality of fault values and fault reason information corresponding to each fault value; the fault values comprise fault temperature values, fault voltage values, fault current values and fault BIOS values;

judging whether the operating data of the main board has a corresponding item with the fault value;

if yes, calling the corresponding fault reason information in the fault table, and transmitting the fault reason information to the corresponding maintenance contact person through the maintenance contact person mode.

Through adopting above-mentioned technical scheme, give the maintenance contact with trouble reason information transmission, the supplementary maintenance contact of being convenient for judges the trouble reason of mainboard according to mainboard operating data to carry corresponding instrument and maintain the computer, not only be convenient for improve the degree of accuracy that the maintenance contact judged the computer trouble reason, still help making the computer obtain timely restoration, be difficult for influencing the use of computer.

Optionally, when there is no corresponding item to the fault value in the motherboard operating data, the motherboard operating data is uploaded to a server.

By adopting the technical scheme, the fault meter is convenient to maintain, so that fault reason information with high accuracy can be output in the subsequent mainboard fault monitoring and diagnosing process, and a maintenance contact can be helped to judge the reason of the computer fault.

Optionally, when there is no corresponding item with the fault value in the mainboard operation data, calling a plurality of pre-stored suggested contact ways;

transmitting the mainboard operation data to a corresponding suggested contact person through the suggested contact person mode, and starting timing;

and when the timing time is equal to a preset time threshold value, transmitting the fault reference information fed back by the suggested contact person to the corresponding maintenance contact person through the maintenance contact person mode.

By adopting the technical scheme, even if the fault table is not used for obtaining the corresponding fault reason information, the fault reference information which is fed back by the suggested contact person aiming at the mainboard operation data can be obtained in the specified time. And the fault reference information is transmitted to the maintenance contact person, so that the maintenance contact person can be assisted to diagnose the fault reason of the mainboard.

Optionally, the step of transmitting the motherboard operating data to a user includes:

calling a pre-stored user contact way;

and transmitting the latest stored plurality of groups of mainboard operation data to the user through the user contact way.

Through adopting above-mentioned technical scheme, give the user with a plurality of groups mainboard operating data transmission, and not give the user with all mainboard operating data transmission, be convenient for reduce the burden that the user received mainboard operating data on the one hand, on the other hand is convenient for save the user and gives the time of maintenance contact with mainboard operating data transmission, helps the computer in time to obtain repairing.

In a second aspect, the present application provides a monitoring and diagnosing apparatus for computer motherboard faults, which adopts the following technical scheme:

a monitoring and diagnosing device for computer mainboard faults comprises a temperature sensor, a voltage sensor, a current sensor, a storage module and a processing module;

the temperature sensor, the voltage sensor, the current sensor and the storage module are all connected with the processing module;

the temperature sensor is used for detecting the temperature of the CPU on the mainboard and generating CPU temperature data;

the voltage sensor is used for detecting the input voltage of the mainboard and generating input voltage data;

the current sensor is used for detecting the input current of the mainboard and generating input current data;

a preset threshold value table is stored in the storage module;

the processing module is used for acquiring the CPU temperature data, the input voltage data, the input current data and the BIOS data of the mainboard, and storing the CPU temperature data, the input voltage data, the input current data and the BIOS data acquired at the same time in the storage module in a group to form mainboard operation data;

the processing module is used for judging whether the mainboard is in fault or not based on the mainboard operation data and the threshold value table, and outputting the mainboard operation data after calling when the mainboard is in fault.

By adopting the technical scheme, the processing module utilizes the temperature sensor, the voltage sensor, the current sensor and the storage module to carry out real-time monitoring and diagnosis on the mainboard of the computer, so that the mainboard faults can be found and repaired in time.

In a third aspect, the intelligent terminal provided by the application adopts the following technical scheme:

an intelligent terminal comprises a memory and a processor, wherein a monitoring and diagnosing program of a computer mainboard fault is stored in the memory; the processor is used for adopting the method when executing the monitoring and diagnosing program of the computer mainboard fault.

By adopting the technical scheme, the related programs can be stored and executed, and the computer can be repaired in time conveniently.

In a fourth aspect, the present application provides a storage medium, which adopts the following technical solutions:

a storage medium stores a computer program that can be loaded by a processor and that executes the above-described method.

By adopting the technical scheme, the related computer programs are stored, so that the computer can be repaired in time conveniently.

To sum up, first, acquire mainboard operating data in real time, judge whether the mainboard breaks down in combination with predetermined threshold value table, if break down, then with mainboard operating data output, the user of the maintenance person of being convenient for or computer judges the trouble reason of mainboard according to mainboard operating data to use corresponding repair tools, once only accomplish the fault repair of mainboard, the computer of being convenient for in time obtains repairing.

Second, when exporting mainboard operating data, if the mainboard is in the on state, then the mainboard operating data that will store is whole to be exported for the maintenance contact, and the maintenance contact of being convenient for has comparatively comprehensive understanding to the mainboard to discover the root cause of mainboard trouble, once only repair the mainboard, be convenient for reduce mainboard fault rate.

Drawings

Fig. 1 is a block diagram of a monitoring and diagnosing apparatus for monitoring and diagnosing a failure of a computer motherboard according to an embodiment.

Fig. 2 is a flowchart of a method for monitoring and diagnosing a failure of a computer motherboard according to an embodiment.

Fig. 3 is a flowchart of step S300 in a method for monitoring and diagnosing a failure of a computer motherboard according to an embodiment.

Fig. 4 is another flowchart of step S300 of a method for monitoring and diagnosing a failure of a computer motherboard according to an embodiment.

Description of reference numerals:

1. a temperature sensor; 2. a voltage sensor; 3. a current sensor; 4. a storage module; 5. and a processing module.

Detailed Description

The embodiment of the application discloses monitoring diagnostic device of computer motherboard trouble, refers to fig. 1, including temperature sensor 1, voltage sensor 2, current sensor 3, storage module 4 and processing module 5. The temperature sensor 1, the voltage sensor 2, the current sensor 3 and the storage module 4 are all connected with the processing module 5. The temperature sensor 1 is used for detecting the temperature of a CPU on the mainboard and generating CPU temperature data; the voltage sensor 2 is used for detecting the input voltage of the mainboard and generating input voltage data; the current sensor 3 is used for detecting the input current of the mainboard and generating input current data; in the storage module 4 has a preset threshold table.

The processing module 5 is configured to obtain CPU temperature data, input voltage data, input current data, and BIOS data of the motherboard, and store the CPU temperature data, the input voltage data, the input current data, and the BIOS data obtained at the same time in the storage module 4 in groups, so as to form motherboard operating data. The processing module 5 is further configured to determine whether the motherboard fails based on the motherboard operating data and the threshold table. If the fault occurs, calling the mainboard operation data, and then outputting the mainboard operation data.

Specifically, the monitoring and diagnosing device is installed in the case of the computer host, and the current input end can be connected to the current input end of the mainboard. In order to prevent the monitoring and diagnosing device from being affected when the main board has a fault, the current input end of the monitoring and diagnosing device can be set as a current input interface or a power supply plug to obtain the household current.

After the computer mainboard breaks down, processing module 5 exports mainboard operating data, and the user of the computer of being convenient for or maintenance person obtain to utilize mainboard operating data to judge the trouble reason of mainboard, help quick and accurate repairing mainboard trouble.

Based on the above scenario, a method for monitoring and diagnosing a computer motherboard fault is described in detail below.

The embodiment of the application discloses a method for monitoring and diagnosing faults of a computer mainboard, and with reference to fig. 2, the method comprises the following steps:

and S100, acquiring and storing mainboard operation data after the mainboard is electrified.

The motherboard operating data includes CPU temperature, motherboard input voltage, motherboard input current, and BIOS data. Whether the mainboard is electrified or not can be judged through the mainboard input voltage or the mainboard input current.

S200, judging whether the mainboard has a fault or not based on the mainboard operation data and a pre-stored threshold value table.

The threshold table comprises a temperature threshold section, an input voltage threshold section, an input current threshold section and a BIOS standard threshold. When a certain item of data in the mainboard operation data cannot correspond to the corresponding threshold value in the threshold value table, the fault of the mainboard can be judged.

Specifically, step S200 includes:

and judging whether the temperature of the CPU meets a temperature threshold section, whether the input voltage of the mainboard meets an input voltage threshold section, whether the input current of the mainboard meets an input current threshold section and whether each subdata in the BIOS data meets a corresponding sub-standard threshold in the BIOS standard threshold.

It is easy to understand that when a certain item of data of the mainboard operation data corresponds to a certain threshold value section in the threshold value table, if the certain item of data is located in the corresponding threshold value section, the data is regarded as being in line; if not, the non-compliant segment is considered non-compliant. If a certain item of data of the mainboard operation data corresponds to a certain threshold value in the threshold value table, the data is equal to the threshold value and is in accordance with the threshold value, and the data is not in accordance with the threshold value.

If the two are consistent, judging that the main board is not in fault; if one item is not matched, the main board is considered to be in fault.

S300, when the main board breaks down, calling and outputting the main board operation data.

Referring to fig. 3, step S300 includes:

s310, judging whether the mainboard is powered off.

Specifically, whether the mainboard is powered off or not is judged through the mainboard input voltage and/or the mainboard input current. When the mainboard has input voltage and/or input current, the mainboard is in a power-on state; when the mainboard has no input voltage and/or input current, the mainboard is in a power-off state.

And when the mainboard is not powered off, executing the step S320, and calling the pre-stored maintenance contact person mode and the mainboard operation data. When the motherboard is powered off, step S330 is executed to retrieve the motherboard operating data and transmit the motherboard operating data to the user.

Specifically, step S330 includes:

s331, retrieving the pre-stored user contact information.

S332, transmitting the latest stored operation data of the plurality of groups of mainboards to the user through the user contact way.

The transmission mode can be through WIFI or bluetooth, and several groups can be 5 groups, 10 groups or 20 groups, aims at reducing the burden that the user received mainboard operation data.

After step S320, the method further includes:

and S340, calling a prestored fault table.

The fault table stores a plurality of fault values and fault cause information corresponding to each fault value. The fault cause information includes a fault temperature value, a fault voltage value, a fault current value, and a fault BIOS value.

And S350, judging whether the operating data of the main board has a corresponding item with the fault value.

It is easy to understand that the CPU temperature in the mainboard operation data corresponds to the fault temperature value and is compared. If the CPU temperature is equal to the fault temperature value, the corresponding item of the fault value is proved to exist in the mainboard operation data. Otherwise, if any item in the mainboard operation data is not equal to the corresponding fault value, it is proved that the mainboard operation data does not have the corresponding item corresponding to the fault value.

And when the operating data of the main board has the corresponding item with the fault value, executing the step S360, calling the corresponding fault reason information in the fault table, and transmitting the fault reason information to the corresponding maintenance contact person through the maintenance contact person. And when the main board operation data does not have the corresponding item with the fault value, executing step S370, and uploading the main board operation data to the server.

Wherein, after step S360, the method further comprises:

and S380, transmitting the mainboard operation data to the corresponding maintenance contact person in a maintenance contact person mode.

Referring to fig. 3, in another embodiment, if there is no corresponding item in the motherboard operation data corresponding to the fault value, step S390 and the subsequent steps are performed instead of step S370.

And S390, retrieving a plurality of pre-stored suggested contact modes.

And S391, transmitting the mainboard operation data to the corresponding suggested contact person through the suggested contact person mode, and starting timing.

And S392, when the timing time is equal to the preset time threshold, transmitting the fault reason information fed back by the suggested contact person to the corresponding maintenance contact person through a maintenance contact person mode.

The suggested contact may be a computer vendor or some computer maintenance consultant provided by a manufacturer to a customer. The time threshold value can be 1 hour or 10 minutes, and aims to output the mainboard operation data to the maintenance contact person in time so as to avoid influencing the timely maintenance of the mainboard.

In addition, in another embodiment, when there is no corresponding item with the fault value in the motherboard operation data, steps S370 and S390 may be executed simultaneously or sequentially, and then steps S391 and S392 may be executed sequentially after step S390.

The implementation principle of the monitoring and diagnosing method for the computer mainboard fault in the embodiment of the application is as follows: the method comprises the steps of acquiring mainboard operation data in real time, judging whether the mainboard fails or not by combining a preset threshold value table, inquiring fault reason information in the fault table if the mainboard fails, and outputting the fault reason information and the mainboard operation data to a maintenance contact person together if the fault reason information is found. The maintenance contact can accurately and quickly judge the fault reason of the mainboard, so that the maintenance contact can carry a corresponding maintenance tool to maintain the mainboard, and the computer can be timely repaired.

The embodiment of the application also discloses an intelligent terminal, which comprises a memory and a processor, wherein the memory stores a monitoring and diagnosing program of the computer mainboard fault; the processor is used for adopting the method when executing the monitoring and diagnosing program of the computer mainboard fault.

The embodiment of the application also discloses a storage medium which stores a computer program capable of being loaded by a processor and executing the method.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A monitoring and diagnosing method for computer mainboard faults is characterized by comprising the following steps:

after the mainboard is electrified, obtaining and storing mainboard operation data;

judging whether the mainboard has a fault or not based on the mainboard operation data and a prestored threshold value table;

and when the main board breaks down, calling and outputting the main board operation data.

2. The method according to claim 1, wherein the motherboard operating data includes CPU temperature, motherboard input voltage, motherboard input current, and BIOS data; the threshold table comprises a temperature threshold section, an input voltage threshold section, an input current threshold section and a BIOS standard threshold;

the step of judging whether the mainboard is in fault or not based on the mainboard operation data and a pre-stored threshold value table comprises the following steps:

judging whether the CPU temperature meets the temperature threshold section, whether the mainboard input voltage meets the input voltage threshold section, whether the mainboard input current meets the input current threshold section and whether each sub-data in the BIOS data meets a corresponding sub-standard threshold in the BIOS standard threshold;

if the two are consistent, the mainboard is judged to be not failed; otherwise, the main board is considered to be in fault.

3. The method according to claim 2, wherein the step of retrieving and outputting the motherboard operating data when the motherboard fails comprises:

judging whether the mainboard is powered off or not based on the mainboard input voltage and the mainboard input current;

when the mainboard is not powered off, calling a pre-stored maintenance contact person mode and mainboard operation data, and transmitting the mainboard operation data to a corresponding maintenance contact person through the maintenance contact person mode;

and when the mainboard is powered off, calling the mainboard operation data and transmitting the mainboard operation data to a user.

4. The method according to claim 3, further comprising, before the step of transmitting the motherboard operating data to the corresponding maintenance contact through the maintenance contact, the step of:

calling a prestored fault table; the fault table stores a plurality of fault values and fault reason information corresponding to each fault value; the fault values comprise fault temperature values, fault voltage values, fault current values and fault BIOS values;

judging whether the operating data of the main board has a corresponding item with the fault value;

if yes, calling the corresponding fault reason information in the fault table, and transmitting the fault reason information to the corresponding maintenance contact person through the maintenance contact person mode.

5. The method according to claim 4, wherein the mainboard operation data is uploaded to a server when there is no corresponding item in the mainboard operation data corresponding to the fault value.

6. The method for monitoring and diagnosing the computer mainboard fault according to claim 4 or 5, wherein when no corresponding item with the fault value exists in the mainboard operation data, a plurality of pre-stored suggested contact ways are called;

transmitting the mainboard operation data to a corresponding suggested contact person through the suggested contact person mode, and starting timing;

and when the timing time is equal to a preset time threshold value, transmitting the fault reference information fed back by the suggested contact person to the corresponding maintenance contact person through the maintenance contact person mode.

7. The method as claimed in claim 3, wherein the step of transmitting the motherboard operating data to the user comprises:

calling a pre-stored user contact way;

and transmitting the latest stored plurality of groups of mainboard operation data to the user through the user contact way.

8. A monitoring and diagnosing device for computer mainboard faults is characterized in that: the device comprises a temperature sensor (1), a voltage sensor (2), a current sensor (3), a storage module (4) and a processing module (5);

the temperature sensor (1), the voltage sensor (2), the current sensor (3) and the storage module (4) are all connected with the processing module (5);

the temperature sensor (1) is used for detecting the temperature of a CPU on the mainboard and generating CPU temperature data;

the voltage sensor (2) is used for detecting the input voltage of the mainboard and generating input voltage data;

the current sensor (3) is used for detecting the input current of the mainboard and generating input current data;

a preset threshold value table is stored in the storage module (4);

the processing module (5) is used for acquiring the CPU temperature data, the input voltage data, the input current data and the BIOS data of the mainboard, and storing the CPU temperature data, the input voltage data, the input current data and the BIOS data acquired at the same time in the storage module (4) in a group manner to form mainboard operation data;

and the processing module (5) is used for judging whether the mainboard has a fault or not based on the mainboard operation data and the threshold value table, and outputting the mainboard operation data after calling when the mainboard has a fault.

9. An intelligent terminal, comprising a memory and a processor, characterized in that: the memory stores a monitoring and diagnosing program of the computer mainboard fault; the processor is used for adopting the method of any one of claims 1-7 when executing a monitoring and diagnosing program for the faults of the computer mainboard.

10. A storage medium, characterized by: a computer program which can be loaded by a processor and which performs the method of any of claims 1 to 7 is stored.

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