CN116303188B

CN116303188B - Module hot plug control method, device, equipment and medium of circuit board

Info

Publication number: CN116303188B
Application number: CN202310081256.9A
Authority: CN
Inventors: 周龙海; 邢立国; 徐阳; 孙波; 樊世杰
Original assignee: Bailun Biotechnology Jiangsu Co ltd
Current assignee: Bailun Biotechnology Jiangsu Co ltd
Priority date: 2023-01-30
Filing date: 2023-01-30
Publication date: 2024-01-26
Anticipated expiration: 2043-01-30
Also published as: CN116303188A

Abstract

The present disclosure relates to the field of electronic technologies, and in particular, to a method, an apparatus, a device, and a medium for controlling module hot plug of a circuit board. The method comprises the following steps: determining data abnormality information corresponding to the target module and first type information corresponding to the data abnormality information; if the first type information is preset type information, determining module association information corresponding to the target module and second type information from a constructed module association information table, wherein the second type information is the module type of the target module; determining a biological response influence level corresponding to the data abnormality information according to the data abnormality information and the module association information; and determining the abnormal time length of the target module based on the module association information, the biological response influence level and the second type information, and feeding back the abnormal time length to the display terminal. The application has the effect of improving the efficiency of module hot plug.

Description

Module hot plug control method, device, equipment and medium of circuit board

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to a method, an apparatus, a device, and a medium for controlling module hot plug of a circuit board.

Background

A bioreactor (fermenter) is a reaction system that is inoculated to a liquid or solid phase with naturally occurring microorganisms or microorganisms having a specific degradation ability; in the reaction process of the cells or the vaccines, the temperature, the humidity, the ph, the stirring rotating speed, the liquid level, the feeding and other set values of the bioreactor (fermentation tank) in the reaction period are ensured by the arranged multi-parameter detection control circuit board so as to meet the normal culture and the reaction of the cells or the vaccines.

The multi-parameter detection control circuit board is divided into a plurality of modules according to functions, and each module is independently responsible for the corresponding function; because the reaction of cells or vaccines is a continuous process, the relative stability of each parameter of the reactor is ensured in the process, therefore, the running condition of the multi-parameter control circuit board is generally monitored, when the multi-parameter control circuit board is abnormal, the abnormal module is positioned, and the abnormal module is replaced in a manual replacement mode.

However, when the abnormal module occurs, the maximum abnormal time length of the abnormal module allowed by the cell or vaccine in the biological reaction cannot be determined, and the situation that the normal reaction of the cell or vaccine is seriously affected due to the excessively long time from positioning the abnormal module to manually completing the hot plug of the abnormal module exists.

Disclosure of Invention

In order to improve the efficiency of module hot plug, the application provides a module hot plug control method, device, equipment and medium of a circuit board.

In a first aspect, the present application provides a method for controlling module hot plug of a circuit board, which adopts the following technical scheme:

a module hot plug control method of a circuit board comprises the following steps:

determining data abnormality information corresponding to a target module and first type information corresponding to the data abnormality information;

if the first type information is preset type information, determining module group association information corresponding to the target module group and second type information from a constructed module group association information table, wherein the second type information is a module group type to which the target module group belongs, and the module group association information comprises type information respectively corresponding to all the module groups and association conditions between each module group and other module groups;

determining a biological response influence level corresponding to the data abnormality information according to the data abnormality information and the module association information;

and determining the abnormal time length of the target module based on the module association information, the biological reaction influence level and the second type information, and feeding back the abnormal time length to a display terminal, wherein the abnormal time length of the target module is the maximum time length from the occurrence of abnormality to the completion of hot plug of the target module when a cell or vaccine is allowed in the biological reaction process.

By adopting the technical scheme, the data abnormal information corresponding to the target module is determined, the information type corresponding to the data abnormal information is determined, namely, the first type information is determined, then whether the first type information corresponding to the data abnormal information is preset type information is judged, if yes, the data abnormal information is information affecting biological normal reaction, then the module association information corresponding to the target type and the module type corresponding to the target module are determined from the constructed module association information table, namely, the second type information is determined, then the degree of influence of the data abnormal information on biological reaction, namely, the biological reaction influence level is further determined according to the data abnormal information and the module association information, then the time allowed by the influence of the data abnormal information on biological reaction is determined based on the module association information, the biological reaction influence level and the second type information, namely, the abnormal time of the target module is fed back to the display terminal for display, so that a worker is reminded of how long time is needed to complete hot plug of the target module, and then the efficiency of hot plug of the worker completing the module is improved.

In one possible implementation manner, the determining the data exception information corresponding to the target module and the first type information corresponding to the data exception information further includes:

Acquiring module information corresponding to a plurality of modules contained in the multi-parameter detection control circuit board, wherein the module information contains operation and control related information of the modules in the operation process;

determining the corresponding function information of each module according to the module information corresponding to the plurality of modules respectively;

judging whether the function information corresponding to each module belongs to preset function information or not;

if the function information corresponding to any module does not belong to the preset function information, discarding all the modules which do not belong to the preset function information.

By adopting the technical scheme, the module information corresponding to each module contained in the multi-parameter detection control circuit board is acquired, the function information corresponding to each module is determined according to the module information of the operation and control related information of the module in the operation process, then the function information corresponding to each module is compared with the preset function information, if any module does not belong to the preset function information, namely the module does not directly participate in the biological reaction process, the time length of allowing hot plug of any module in the abnormal state is not required to be determined, all the modules which do not belong to the preset function information are discarded immediately, the number of modules needing to be monitored is reduced, and the efficiency of the process of determining the abnormal time length of the target module is improved.

In one possible implementation manner, the determining module association information corresponding to the target module from the constructed module association information table further includes:

acquiring historical data information before abnormality occurs to a historical module corresponding to the target module and historical data abnormality information after abnormality occurs to the historical module in the historical biological reaction;

comparing the historical data information before the occurrence of the abnormality with the historical data abnormality information after the occurrence of the abnormality, and determining a first data deviation amount;

acquiring first data information corresponding to other modules before abnormality occurs to the historical biological reaction and second data information corresponding to the other modules after abnormality occurs to the historical modules;

comparing the first data information with the second data information to determine a second data deviation amount;

and constructing the module association information table based on the historical data information, the historical data anomaly information, the first data deviation amount and the second data deviation amount.

By adopting the technical scheme, the historical data information before the abnormality of the historical module corresponding to the target module in the historical same batch of biological reaction and the historical data abnormality information after the abnormality of the historical module are obtained, the historical data information is compared with the historical data abnormality information, the first data deviation amount corresponding to the historical module is further determined, the first data information corresponding to other modules except the historical module before the abnormality of the historical module and the second data information corresponding to other modules after the abnormality of the historical module are obtained in the historical same batch of biological reaction, and then a module association information table is constructed according to the obtained historical data information, the historical data abnormality information, the first data deviation amount and the second data deviation amount, so that the module association information corresponding to the target module is conveniently determined.

In a possible implementation manner, the determining, according to the data anomaly information and the module association information, a biological reaction influence level corresponding to the data anomaly information includes:

determining the current data deviation amounts respectively corresponding to all other modules except the target module based on the data abnormality information and the module association information;

and determining the biological response influence level corresponding to the data abnormality information according to the data abnormality information and the data deviation amounts respectively corresponding to the other modules.

By adopting the technical scheme, the data anomaly information reflects the running condition corresponding to the target module, the module association information reflects the influence on the data corresponding to other modules after the target module is abnormal, and the quantity deviation information corresponding to other modules except the target module can be determined according to the data anomaly information and the module association information; then, according to the data deviation amounts respectively corresponding to the data abnormality information and other modules, the influence degree of each other module on the biological reaction when the data abnormality occurs to the current target module can be reflected, and then the biological reaction influence level corresponding to the data abnormality information can be determined, the influence of the current other modules on the biological reaction is taken into consideration, and the accuracy of determining the biological reaction influence level is improved.

In one possible implementation manner, the determining the abnormal duration of the target module based on the module association information, the biological response influence level and the second type information includes:

predicting a first time length based on the module association information and the biological reaction influence level, wherein the first time length is the time length from the occurrence of abnormality to the hot drawing of the target module;

predicting a second time length based on the second type information, wherein the second time length is the time length from hot drawing to hot plugging of the target module;

and determining the abnormal time length of the target module based on the first time length and the second time length.

By adopting the technical scheme, the time length from the occurrence of the abnormality to the hot plug of the target module, namely the first time length, is predicted based on the module association information and the biological reaction influence level, and meanwhile, the time length from the hot plug to the hot plug of the target module, namely the second time length, is predicted based on the second type information corresponding to the target module, and then, the maximum abnormality time length allowed by the target module when the abnormality occurs is determined based on the first time length and the second time length, so that the abnormality of the target module is ensured, and the time possibly spent in each stage in the hot plug replacement process is included, so that the accuracy of the determined abnormality time length of the target module is improved.

In one possible implementation manner, the determining, from the constructed module association information table, the second type of information corresponding to the target module further includes:

judging whether the second type information is preset special type information or not;

if yes, generating emergency abnormal prompt information and feeding the emergency abnormal prompt information back to the display terminal for display.

By adopting the technical scheme, the second type information corresponding to the target module is compared with the preset special type information, if the second type information is judged to be the preset special type information, the condition that the target module corresponding to the second type information is abnormal is indicated, the influence on biological reaction and other modules is great, namely, emergency abnormal prompt information is generated, the information is fed back to the display terminal to be displayed, the staff is informed at the fastest speed, and the staff is reminded to replace as soon as possible.

In one possible implementation, the method further includes:

acquiring data information corresponding to the target module before abnormality occurs;

when the target module is abnormal, temporarily storing the data information corresponding to the target module before the abnormality occurs into a storage space;

if the insertion of a new target module is detected, loading data information corresponding to the target module before the occurrence of the abnormality into the new target module.

By adopting the technical scheme, the corresponding data information is acquired when the target module normally operates, when the target module is abnormal, the data information is stored in the storage space for temporary storage, then the insertion of the module replacing the target module is detected, the data information temporarily stored in the storage space is called out and is loaded into the new target module, so that the process of resetting the module replacing the target module is skipped, the time from the insertion of the module replacing the target module to the formal participation of the module in the biological reaction process is saved, and the hot plug efficiency is improved.

In a second aspect, the present application provides a module hot plug control device of a circuit board, which adopts the following technical scheme:

a module hot plug control device of a circuit board comprises: a first information determining module, a second information determining module, a grade determining module and an abnormal time length determining module, wherein,

the first information determining module is used for determining data abnormal information corresponding to the target module and first type information corresponding to the data abnormal information;

the second information determining module is used for determining module association information corresponding to the target module and second type information from a constructed module association information table if the first type information is preset type information, wherein the second type information is a module type to which the target module belongs, and the module association information comprises type information corresponding to all modules respectively and association conditions between each module and other modules;

The grade determining module is used for determining the biological reaction influence grade corresponding to the data abnormal information according to the data abnormal information and the module association information;

the abnormal time length determining module is used for determining the abnormal time length of the target module based on the module association information, the biological reaction influence level and the second type information and feeding back the abnormal time length to the display terminal, wherein the abnormal time length of the target module is the maximum time length from the occurrence of abnormality of the target module to the completion of hot plug of the target module when a cell or vaccine is in a biological reaction process.

By adopting the technical scheme, the first information determining module determines the data abnormal information corresponding to the target module and determines the information type corresponding to the data abnormal information, namely, the first type information, then the second information determining module judges whether the first type information corresponding to the data abnormal information is the preset type information or not, if yes, the data abnormal information is the information affecting the biological normal reaction, then the second information determining module determines the module related information corresponding to the target type and the module type corresponding to the target module, namely, the second type information, from the constructed module related information table, then the grade determining module further determines the influence degree of the data abnormal information on the biological reaction, namely, the biological reaction influence grade according to the data abnormal information and the module related information, then the abnormal time length determining module determines the time length allowed by the biological reaction under the small influence on the basis of the module related information, the biological reaction influence grade and the second type information, namely, the abnormal time length of the target module is fed back to the display terminal to be displayed, so that a worker is reminded of completing the hot plug of the target module in a plurality of time, and then the efficiency of completing the hot plug of the target module is improved.

In one possible implementation manner, the module hot plug control device of the circuit board further includes: a module information acquisition module, a function information determination module, a first judgment module and a module discarding module, wherein,

the module information acquisition module is used for acquiring module information corresponding to a plurality of modules contained in the multi-parameter detection control circuit board respectively, wherein the module information comprises operation and control related information of the modules in the operation process;

the function information determining module is used for determining the function information corresponding to each module according to the module information corresponding to the plurality of modules respectively;

the first judging module is used for judging whether the function information corresponding to each module belongs to preset function information or not;

the module discarding module is used for discarding all the modules which do not belong to the preset function information if the function information corresponding to any module does not belong to the preset function information.

In one possible implementation manner, the module hot plug control device of the circuit board further includes: a first information acquisition module, a first deviation amount determination module, a second information acquisition module, a second deviation amount determination module and an information table construction module, wherein,

The first information acquisition module is used for acquiring historical data information before abnormality occurs to the historical module corresponding to the target module and historical data abnormality information after abnormality occurs to the historical module in the historical biological reaction;

the first deviation amount determining module is used for comparing the historical data information before the occurrence of the abnormality with the historical data abnormality information after the occurrence of the abnormality to determine a first data deviation amount;

the second information acquisition module is used for acquiring first data information corresponding to other modules before the abnormality of the historical module and second data information corresponding to the other modules after the abnormality of the historical module in the historical biological reaction;

a second deviation amount determining module, configured to compare the first data information with the second data information, and determine a second data deviation amount;

and the information table construction module is used for constructing the module association information table based on the historical data information, the historical data abnormal information, the first data deviation amount and the second data deviation amount.

In one possible implementation manner, the level determining module further includes: a deviation determining unit and a grade determining unit, wherein,

The deviation amount determining unit is used for determining the current data deviation amounts respectively corresponding to all other modules except the target module based on the data abnormality information and the module association information;

and the grade determining unit is used for determining the biological response influence grade corresponding to the data abnormal information according to the data abnormal information and the data deviation amounts respectively corresponding to the other modules.

In one possible implementation manner, the abnormal time length determining module further includes: a first time length prediction unit, a second time length prediction unit and an abnormal time length determination unit, wherein,

the first time length prediction unit is used for predicting a first time length based on the module association information and the biological reaction influence level, wherein the first time length is the time length from the occurrence of the abnormality to the hot drawing of the target module;

the second duration prediction unit is used for predicting a second duration based on the second type information, wherein the second duration is the duration of the target module from hot drawing to hot plugging;

the abnormal time length determining unit is used for determining the abnormal time length of the target module based on the first time length and the second time length.

In one possible implementation manner, the module hot plug control device of the circuit board further includes: the second judging module and the feedback module, wherein,

The second judging module is used for judging whether the second type information is preset special type information or not;

and the feedback module is used for generating emergency abnormal prompt information and feeding back the emergency abnormal prompt information to the display terminal for display if the second type information is preset special type information.

In one possible implementation manner, the module hot plug control device of the circuit board further includes: a data information acquisition module, a data information temporary storage module and a data information loading module, wherein,

the data information acquisition module is used for acquiring data information corresponding to the target module before the occurrence of the abnormality;

the data information temporary storage module is used for temporarily storing the data information corresponding to the target module before the abnormality occurs to a storage space when the abnormality occurs to the target module;

and the data information loading module is used for loading the data information corresponding to the target module before the abnormality occurs to the new target module if the insertion of the new target module is detected.

In a third aspect, the present application provides an apparatus, which adopts the following technical scheme:

an apparatus, the apparatus comprising:

at least one processor;

a memory;

at least one application program, wherein the at least one application program is stored in the memory and configured to be executed by the at least one processor, the at least one application program configured to: the method for controlling the module hot plug of the circuit board is executed.

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

a computer-readable medium, comprising: a computer program capable of being loaded by a processor and executing the module hot plug control method of the circuit board is stored.

In summary, the present application includes the following beneficial technical effects:

determining data abnormal information corresponding to a target module and determining an information type corresponding to the data abnormal information, namely first type information, then judging whether the first type information corresponding to the data abnormal information is preset type information or not, if so, indicating that the data abnormal information is information affecting biological normal reaction, then determining module association information corresponding to the target type and module type corresponding to the target module, namely second type information, from a constructed module association information table, then further determining the influence degree of the data abnormal information on biological reaction, namely biological reaction influence level, based on the module association information, biological reaction influence level and the second type information, determining the allowable duration affecting biological reaction, namely the abnormal duration of the target module, and feeding back to a display terminal for display, thereby reminding a worker of how long to complete hot plug of the target module, and further improving the efficiency of completing hot plug of the module.

Drawings

FIG. 1 is a flow chart of a module hot plug control method of a circuit board according to an embodiment of the present disclosure;

FIG. 2 is a schematic block diagram of a module hot plug control device of a circuit board according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of an apparatus according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

In order to facilitate understanding of the technical solutions presented in the present application, several elements that will be introduced in the description of the present application are first introduced herein. It should be understood that the following description is merely for ease of understanding these elements, and is not necessarily intended to cover all possible scenarios for an understanding of the embodiments of the present application.

The embodiment of the application provides a module hot plug control method of a circuit board, which is executed by equipment, wherein the equipment can be a server or terminal equipment, and the server can be an independent physical server, a server cluster or distributed equipment formed by a plurality of physical servers, or a cloud server for providing cloud computing service. The terminal device may be a smart phone, a tablet computer, a notebook computer, a desktop computer, etc., but is not limited thereto, and the terminal device and the server may be directly or indirectly connected through a wired or wireless communication manner, which is not limited herein.

Referring to fig. 1, the method includes: step S101, step S102, step S103, and step S104, wherein,

s101, determining data abnormality information corresponding to a target module and first type information corresponding to the data abnormality information.

For the embodiment of the application, the first type information is an information type to which the data exception information belongs, and the data exception information is information in which deviation or missing occurs in the running process of the module.

The electronic equipment acquires data information respectively corresponding to all modules contained in the multi-parameter detection control circuit board, wherein the data information comprises operation data, received data, sent data and the like of the corresponding modules, then the electronic equipment analyzes the data information corresponding to each module, defines abnormal data information in the data information as data abnormal information and defines the module corresponding to the data abnormal information as a target module, namely the electronic equipment determines the data abnormal information corresponding to the target module, and the electronic equipment determines the data type, namely the first type information, corresponding to the data abnormal information.

S102, if the first type information is preset type information, determining module association information and second type information corresponding to the target module from a constructed module association information table;

for the embodiment of the application, the module association information table includes type information corresponding to all modules and association conditions between each module and other modules, and the module association information is association degree information of the target module and the other modules; the second type information is the module type to which the target module belongs.

Before the electronic equipment judges the type of the first type information corresponding to the abnormal data information, the preset type is set, specifically, the mode of setting the preset type information by the electronic equipment comprises at least two modes, firstly, the electronic equipment analyzes multiple data respectively contained in all modules in the acquired multi-parameter detection control circuit board to determine the type information corresponding to each type of data, then, the electronic equipment determines the data influencing the biological normal reaction according to the analysis result of the multiple data, and the type information corresponding to the data is used as the preset type information; in a second mode, a worker inputs type information corresponding to data influencing biological normal response to the electronic equipment through the terminal equipment, and the electronic equipment takes the type information corresponding to the data as preset type information.

The electronic equipment compares the first type information corresponding to the determined data abnormality information with preset type information, if the first type information is judged to be the preset type information, the data abnormality information corresponding to the first type information can influence the normal response of living beings, then the electronic equipment determines module association information corresponding to the target module and the module type corresponding to the target module from a constructed module association information table, namely, second type information, and the electronic equipment is used for further judging the influence of the data abnormality information of the target module on other modules in the multi-parameter detection control circuit board and determining the maximum duration of allowing the module to be abnormal.

S103, determining the biological response influence level corresponding to the data abnormality information according to the data abnormality information and the module association information.

For the embodiments of the present application, the biological response impact level is the degree of impact of the data anomaly information on the biological response, including the impact on time and the impact on the efficiency of the biological response.

When the abnormal data information influences the biological response, the normal operation of other modules is influenced to a certain extent, and the normal response of the other modules to the living beings is influenced to a certain extent, so that the influence of the abnormal data information on the other modules is needed to be considered in the process of determining the corresponding biological response influence level according to the abnormal data information, and the influence of the other modules to the biological response is further caused to be considered, so that the accuracy of the determined biological response influence level is ensured.

Further, before determining the biological reaction influence level corresponding to the abnormal data information, associating and setting a plurality of data corresponding to a plurality of modules included in the multi-parameter detection control circuit board with the influence condition of each data on the biological reaction under different conditions, for example, excluding data which does not directly participate in the biological reaction, for example, clock data and the like, associating and setting the influence level of the residual data on the biological reaction under different numerical conditions, for example, the data is temperature data, the temperature data is subjected to three-stage distinction, a normal temperature range, a lower than normal temperature range and a higher than normal temperature range are recorded and associated and set with the temperature data under each condition, then, setting the biological reaction level according to the reaction time and the reaction efficiency of the biological reaction, for example, the influence level of the biological reaction corresponding to the normal temperature range is set as a first level, the influence level of the biological reaction corresponding to the lower than normal temperature range is set as a second level, and the influence level of the biological reaction corresponding to the higher than the normal temperature range is set as a third level; when the data abnormal information determined by the electronic equipment is temperature abnormal information, if the temperature abnormal information is lower than a normal range, directly determining that the biological reaction influence level is a second level, and determining the duration of biological reaction and the efficiency of biological reaction under the current condition.

S104, determining the abnormal time length of the target module based on the module association information, the biological response influence level and the second type information, and feeding back the abnormal time length to the display terminal.

For the embodiment of the application, the abnormal duration of the target module is the maximum duration of allowing the Xu Mubiao module to be hot-plugged from the occurrence of the abnormality to the completion of the target module in the biological reaction process of the cell or the vaccine.

The electronic equipment determines the influence of other modules on biological reaction according to the module association information, determines the duration of continuous biological reaction when the modules are abnormal according to the biological reaction grade, and determines the difficulty degree of the current module plug according to the second type information, so that the hot plug duration can be reflected, namely, the electronic equipment determines the maximum allowable duration when the target module is abnormal according to the module association information, the biological reaction influence grade and the second type information, namely, the abnormal duration of the target module, and the influence on the biological reaction can be reduced as far as possible when the worker finishes the hot plug of the target module, namely, the electronic equipment feeds back the abnormal duration of the target module to a display terminal used by the worker for displaying, so that the worker is reminded of finishing the hot plug of the target module in the duration, and further, the hot plug efficiency is improved.

The electronic device determines data abnormal information corresponding to a target module and determines an information type corresponding to the data abnormal information, namely first type information, then the electronic device judges whether the first type information corresponding to the data abnormal information is preset type information or not, if yes, the data abnormal information is information affecting biological normal reaction, then the electronic device determines module related information corresponding to the target type and module type corresponding to the target module, namely second type information, from a constructed module related information table, then the electronic device further determines the influence degree of the data abnormal information on biological reaction, namely biological reaction influence level, then the electronic device determines the time allowed by the biological reaction to be less influenced, namely the target module abnormal time based on the module related information, the biological reaction influence level and the second type information, and feeds back to a display terminal for display, so that workers are reminded of completing the thermal plug of the target module in a long time, and further efficiency of completing the thermal plug of the target module is improved.

The multi-parameter detection control circuit board comprises a plurality of types of modules, such as a communication module, a data monitoring module, a data control module and the like, wherein each type of module has different functions in the working process of the bioreactor, and the multi-parameter detection control circuit board comprises modules which do not directly participate in biological reaction, such as a communication module and the like; if the communication module is abnormal, the biological response is not directly affected, so that the module of the type can be eliminated, the maximum time length for allowing hot plug is not determined when the abnormality occurs, specifically, in step S101, data abnormality information corresponding to the target module and first type information corresponding to the data abnormality information are determined, and the method further includes: step S10a (not shown in the drawings), step S10b (not shown in the drawings), step S10c (not shown in the drawings), and step S10d (not shown in the drawings), wherein,

step S10a, module information corresponding to a plurality of modules contained in the multi-parameter detection control circuit board is obtained;

step S10b, determining the function information corresponding to each module according to the module information corresponding to each module.

Specifically, the module information includes operation and control related information of the module in the operation process.

The electronic equipment firstly obtains module information respectively corresponding to a plurality of modules contained in the multi-parameter detection control circuit board, analyzes the operation parameters and the control parameters contained in the module information, and further determines functional information corresponding to each module, for example, the module information corresponding to the temperature module comprises preset temperature parameters, the temperature parameters of the current biological reaction received and the corresponding control information, and analyzes and processes the temperature parameters, the temperature parameters of the current biological reaction received and the corresponding control information, and further determines that the module corresponding to the module information is a temperature module, namely determines the function of the module to be the temperature control of the biological reaction.

Step S10c, judging whether the function information corresponding to each module belongs to preset function information;

step S10d, if any module corresponding to the function information does not belong to the preset function information, discarding all the modules not corresponding to the preset function information.

Specifically, the electronic equipment presets function information, wherein the function information is corresponding to a module which has direct influence on biological reaction; after determining the function information corresponding to each of the plurality of modules contained in the multi-parameter detection control circuit board, the electronic equipment compares the function information corresponding to each module with a new preset function message, when the function information corresponding to any module does not belong to the preset function information, the electronic equipment indicates that any module does not directly participate in the biological reaction, and then when any module is abnormal, the electronic equipment does not need to determine the duration of the biological reaction influenced by the abnormality of any module, so that the electronic equipment can discard the function module and does not use any module as a target module to determine the abnormal duration of the corresponding target module.

Before the module abnormality occurs and the data abnormality information is generated, a module association information table is required to be constructed so as to facilitate the subsequent determination of the module abnormality time length for the module abnormality, and in a specific process of constructing the module association information table, in step S102, module association information corresponding to the target module is determined from the constructed module association information table, which further includes: step S10A (not shown in the drawings), step S10B (not shown in the drawings), step S10C (not shown in the drawings), step S10D (not shown in the drawings), and step S10E (not shown in the drawings), wherein,

step S10A, acquiring historical data information before abnormality occurs to a historical module corresponding to a target module and historical data abnormality information after abnormality occurs to the historical module in a historical biological reaction;

and step S10B, comparing the historical data information before the occurrence of the abnormality with the historical data abnormality information after the occurrence of the abnormality, and determining a first data deviation amount.

Specifically, in the biological reaction test process, in order to obtain accurate data of biological reaction, multiple reaction tests are generally performed on the same organism, so that the situation that the module corresponding to the target module is abnormal in the historical biological reaction process also exists, and therefore, a module association information table can be constructed based on related information in the historical biological reaction process; firstly, the electronic equipment acquires historical data information before abnormality of a historical module corresponding to a target module in a historical biological reaction process and historical data abnormality information after abnormality of the historical module information, then compares the historical data information with the historical data abnormality information, determines deviation amount of the data information before abnormality and after abnormality of the historical module, namely first data deviation amount, and takes the first data deviation amount as one of information for constructing a module association information table.

Step S10C, acquiring first data information respectively corresponding to other modules before abnormality occurs in the historical biological reaction and second data information respectively corresponding to the other modules after abnormality occurs in the historical module;

step S10D, comparing the first data information with the second data information to determine a second data deviation amount;

in step S10E, a module association information table is constructed based on the historical data information, the historical data anomaly information, the first data deviation amount and the second data deviation amount.

Specifically, the electronic device acquires data before abnormality of the historical module, namely second data information, of other modules, and data after abnormality of the historical module, namely second data information, then, the electronic device compares the first data information corresponding to each other module with the second data information, determines deviation amounts of the data information of the other modules before and after abnormality of the historical module, namely second data deviation amounts, takes the second data deviation amounts as one of information for constructing a module association information table, and then, the electronic device constructs the module association information table based on the historical data information, the historical data abnormality information, the first data deviation amounts and the second data deviation amounts.

Further, in the process of constructing the module association information table by the electronic equipment, the historical data information, the historical data abnormal information, the first data deviation amount and the second data deviation amount are arranged in the module association information table, and the biological response influence level corresponding to the historical data abnormal information is determined according to the historical data abnormal information, the first data deviation amount and the second data deviation amount and is arranged in the module association information table; if the electronic equipment feeds the data abnormal information corresponding to the target module to the display terminal for display, a worker can directly determine the corresponding biological reaction influence degree according to the data abnormal information, the electronic equipment receives the relevant information of the biological reaction influence degree corresponding to the data abnormal information recorded by the worker, and the electronic equipment directly analyzes and processes the relevant information and directly invokes the biological reaction influence level from the module association information table.

The multiple parameter detection control circuit board contains a plurality of modules, and when there is some special modules to appear unusual, produces very big negative effect to biological response process and other modules, for example power supply module, when power supply module is unusual, will influence the power supply condition of other modules, when the power supply of other modules receives the influence, will cause huge influence to biological response, consequently, confirm the corresponding second type information of target module from the module association information table of constructing, still include afterwards: judging whether the second type information is preset special type information or not; if yes, generating emergency abnormal prompt information and feeding the emergency abnormal prompt information back to the display terminal for display.

For the embodiment of the application, the electronic device compares the second type information corresponding to the target module with the preset special type information, if the electronic device judges whether the second type information is the preset special type information, the electronic device indicates that the target module corresponding to the second type information is abnormal, the influence on biological response and other modules is great, the electronic device generates emergency abnormal prompt information immediately and feeds the information back to the display terminal to be displayed, the staff is reminded to know the information at the fastest speed, the staff is reminded to replace the information as soon as possible, and serious negative effects of biological response caused by the abnormality of the target module corresponding to the second type information are avoided.

The target module is abnormal, and then data abnormal information appears, the influence level of the biological reaction determined only aiming at the data abnormal information is inaccurate, the relevance between the target module and other modules is not considered, namely, when the target module is abnormal, the negative influence on other modules is caused, and when the negative influence on other modules is caused, the biological reaction is also influenced, therefore, when the biological reaction influence level is determined, the relevance factors between the target module and other modules need to be considered, specifically, in step S103, the biological reaction influence level corresponding to the data abnormal information is determined according to the data abnormal information and the module relevance information, and the method specifically comprises the following steps: step S031 (not shown) and step S032 (not shown), wherein

Step S031, determining the current data deviation amounts respectively corresponding to all other modules except the target module based on the data abnormality information and the module association information;

step S032, determining the biological response influence level corresponding to the data abnormality information according to the data deviation amounts respectively corresponding to the data abnormality information and other modules.

For the embodiment of the application, the data anomaly information is used as initial information for determining the data deviation conditions of other modules corresponding to the target module, the module association information reflects the corresponding conditions of the data deviation of the target module before and after the anomaly and the data deviation of the other modules before and after the anomaly of the target module, therefore, the electronic equipment uses the data anomaly information as initial information and determines the data deviation amounts respectively corresponding to the other modules except the target module corresponding to the data anomaly information based on the module association information, then, the data deviation amounts corresponding to the data anomaly information and the other modules can reflect the influence on the operation of the other modules after the anomaly occurs to the target module, and then the electronic equipment can determine the biological reaction influence level corresponding to the data anomaly information according to the data deviation amounts respectively corresponding to the data anomaly information.

When the target module is abnormal, the data abnormal information is started to the time before the target module is plugged, so that adverse effects on biological reactions can be caused; in addition, when the target module is hot plugged, the target module is in a state of not participating in the regulation and control of the biological reaction, and the biological reaction is negatively influenced at the moment, and in two cases, the degree of the negative influence of the target module on the biological reaction is different, so that the time length of the allowed target module in the current state is also different, and in the process of determining the abnormal time length of the target module, the step S104 is to determine the abnormal time length of the target module in a staged manner, specifically, based on the module association information, the biological reaction influence level and the second type information, the step S104 includes: step S041 (not shown in the drawings), step S042 (not shown in the drawings), and step S043 (not shown in the drawings), wherein,

step S041, predicting a first time length based on module association information and biological reaction influence level, wherein the first time length is the time length from the occurrence of abnormality to the hot drawing of a target module;

specifically, the biological reaction grade reflects the negative influence degree of the current target module on the biological reaction, the module association information reflects the negative influence degree of the current target module on other modules, the comprehensive influence degree of the target module on the biological reaction is determined based on the biological reaction grade and the module association information, and the biological reaction influence is combined under the current influence degree, so that the maximum duration that the target module can be allowed to continue to be used in the current state, namely the first duration, is predicted.

Step S042, based on the second type information, predicting a second time length, wherein the second time length is the time length from hot drawing to hot inserting of the target module;

specifically, due to the hardware design of the module, when the module is hot plugged, the time spent by the module of the same type is basically consistent and fixed when the module is hot plugged, so that the time spent by the module of the same type when the module is hot plugged can be predicted after the type corresponding to the module is determined, namely, the time spent by the electronic equipment in the process from hot plugging to hot plugging is predicted based on the second type information corresponding to the determined target module.

And step S043, determining the abnormal time length of the target module based on the first time length and the second time length.

Specifically, the time length from the occurrence of the abnormality to the completion of the replacement process of the target module is determined, the electronic device performs addition calculation on the first time length and the second time length of each reaction stage, and then the total time length from the occurrence of the abnormality to the completion of the replacement process of the target module, namely the abnormal time length of the target module is determined.

Before the target module is hot plugged, the target module contains related information set in advance, the monitoring and the control of the biological reaction are completed based on the related information set in advance, the target module is hot plugged and replaced by a new target module, the related information set in advance is not covered in the new target module, and after the new target module completes the hot plug, the related information needs to be reset for the new target module, but the abnormal time length of the target module is increased, so that the method further comprises the following steps: acquiring data information corresponding to the target module before abnormality occurs; when the target module is abnormal, temporarily storing the data information corresponding to the target module before the abnormality occurs into a storage space; if the insertion of the new target module is detected, loading the data information corresponding to the target module before the abnormality occurs to the new target module.

For the embodiment of the application, before the abnormality of the target module does not occur, the electronic device records the related information which is set in advance and corresponds to the target module, when the data abnormality occurs in the target module, the electronic device sends the recorded related information which is set in advance and corresponds to the target module to the storage space for storage, when the electronic device monitors that the hot plug is completed by the new target module, the electronic device retrieves the related information from the storage space and loads the related information into the new target module, so that the new target module can participate in the biological reaction process quickly.

The foregoing embodiments describe a method for controlling module hot plug of a circuit board from the perspective of a method flow, and the following embodiments describe a device for controlling module hot plug of a circuit board from the perspective of a virtual module or a virtual unit, which are described in detail in the following embodiments.

Referring to fig. 2, the module hot plug control device 20 of the circuit board may specifically include: a first information determination module 201, a second information determination module 202, a level determination module 203, and an abnormal length determination module, wherein,

a first information determining module 201, configured to determine data anomaly information corresponding to the target module and first type information corresponding to the data anomaly information;

The second information determining module 202 is configured to determine, if the first type information is preset type information, module association information corresponding to the target module and second type information from the constructed module association information table, where the second type information is a module type to which the target module belongs, and the module association information includes type information corresponding to all modules respectively and association conditions between each module and other modules;

the grade determining module 203 is configured to determine a biological response influence grade corresponding to the data anomaly information according to the data anomaly information and the module association information;

the abnormal time length determining module 204 is configured to determine, based on the module association information, the biological reaction influence level, and the second type information, an abnormal time length of the target module, which is a maximum time length from the occurrence of the abnormality of the Xu Mubiao module to the completion of the hot plug of the target module in the biological reaction process of the cell or the vaccine, and feed back the abnormal time length to the display terminal.

In one possible implementation manner of this embodiment of the present application, the module hot plug control device 20 of the circuit board further includes: a module information acquisition module, a function information determination module, a first judgment module and a module discarding module, wherein,

the function information determining module is used for determining the function information corresponding to each module according to the module information corresponding to each module;

In one possible implementation manner of this embodiment of the present application, the module hot plug control device 20 of the circuit board further includes: a first information acquisition module, a first deviation amount determination module, a second information acquisition module, a second deviation amount determination module and an information table construction module, wherein,

the second information acquisition module is used for acquiring first data information respectively corresponding to other modules before abnormality occurs to the historical module and second data information respectively corresponding to other modules after abnormality occurs to the historical module in the historical biological reaction;

the second deviation amount determining module is used for comparing the first data information with the second data information and determining a second data deviation amount;

the information table construction module is used for constructing a module association information table based on the historical data information, the historical data abnormal information, the first data deviation amount and the second data deviation amount.

In one possible implementation manner of the embodiment of the present application, the level determining module 203 further includes: a deviation determining unit and a grade determining unit, wherein,

the grade determining unit is used for determining the biological response influence grade corresponding to the data abnormal information according to the data deviation amounts respectively corresponding to the data abnormal information and other modules.

In one possible implementation manner of the embodiment of the present application, the abnormal duration determining module 204 further includes: a first time length prediction unit, a second time length prediction unit and an abnormal time length determination unit, wherein,

the first time length prediction unit is used for predicting a first time length based on module association information and biological reaction influence level, wherein the first time length is the time length from the occurrence of abnormality to the hot drawing of the target module;

In one possible implementation manner of this embodiment of the present application, the module hot plug control device 20 of the circuit board further includes: the second judging module and the feedback module, wherein,

In one possible implementation manner of this embodiment of the present application, the module hot plug control device 20 of the circuit board further includes: a data information acquisition module, a data information temporary storage module and a data information loading module, wherein,

the data information temporary storage module is used for temporarily storing the data information corresponding to the target module before the abnormality occurs to the storage space when the abnormality occurs to the target module;

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

The embodiment of the present application also describes an apparatus from the perspective of a physical device, as shown in fig. 3, where the apparatus 30 shown in fig. 3 includes: a processor 301 and a memory 303. Wherein the processor 301 is coupled to the memory 303, such as via a bus 302. Optionally, the device 30 may also include a transceiver 304. It should be noted that, in practical applications, the transceiver 304 is not limited to one, and the structure of the device 30 is not limited to the embodiments of the present application.

The processor 301 may be a CPU (Central Processing Unit ), general purpose processor, DSP (Digital Signal Processor, data signal processor), ASIC (Application Specific Integrated Circuit ), FPGA (Field Programmable Gate Array, field programmable gate array) or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules, and circuits described in connection with this disclosure. Processor 301 may also be a combination that implements computing functionality, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

Bus 302 may include a path to transfer information between the components. Bus 302 may be a PCI (Peripheral Component Interconnect, peripheral component interconnect Standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. Bus 302 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in fig. 3, but not only one bus or one type of bus.

The Memory 303 may be, but is not limited to, a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory ), a CD-ROM (Compact Disc Read Only Memory, compact disc Read Only Memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 303 is used for storing application program codes for executing the present application and is controlled to be executed by the processor 301. The processor 301 is configured to execute the application code stored in the memory 303 to implement what is shown in the foregoing method embodiments.

The apparatus shown in fig. 3 is merely an example, and should not be construed as limiting the functionality and scope of use of the embodiments herein.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited in order and may be performed in other orders, unless explicitly stated herein. Moreover, at least some of the steps in the flowcharts of the figures may include a plurality of sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, the order of their execution not necessarily being sequential, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

The foregoing is only a partial embodiment of the present application and it should be noted that, for a person skilled in the art, several improvements and modifications can be made without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims

1. A module hot plug control method of a circuit board is characterized by comprising the following steps:

determining data abnormal information corresponding to a target module and first type information corresponding to the data abnormal information, wherein the first type information is the information type of the data abnormal information, and the data abnormal information is information with deviation or missing in the running process of the module;

if the first type information is preset type information, determining module group association information and second type information corresponding to the target module group from a constructed module group association information table, wherein the second type information is a module group type to which the target module group belongs, and the module group association information table contains type information respectively corresponding to all module groups and association conditions between each module group and other module groups;

2. The method of claim 1, wherein determining the data exception information corresponding to the target module and the first type of information corresponding to the data exception information further comprises:

3. The method according to claim 1, wherein determining module association information corresponding to the target module from the constructed module association information table further comprises:

4. The method of claim 1, wherein determining the biological response impact level corresponding to the data anomaly information based on the data anomaly information and the module association information comprises:

5. The method of claim 1, wherein the determining a target module anomaly duration based on the module association information, the biological response impact level, and the second type information comprises:

6. The method according to claim 1, wherein determining the second type of information corresponding to the target module from the constructed module association information table further comprises:

7. The method according to claim 1, wherein the method further comprises:

8. The utility model provides a module hot plug controlling means of circuit board which characterized in that includes:

the first information determining module is used for determining data abnormal information corresponding to the target module and first type information corresponding to the data abnormal information, wherein the first type information is the information type of the data abnormal information, and the data abnormal information is information of deviation or missing of the module in the running process;

the second information determining module is used for determining module association information corresponding to the target module and second type information from a constructed module association information table if the first type information is preset type information, wherein the second type information is a module type to which the target module belongs, and the module association information table comprises type information corresponding to all modules respectively and association conditions between each module and other modules;

9. An apparatus, the apparatus comprising:

at least one processor;

a memory;

at least one application program, wherein the at least one application program is stored in the memory and configured to be executed by the at least one processor, the at least one application program configured to: a method of performing the modular hot plug control of a circuit board according to any one of claims 1 to 7.

10. A computer-readable medium having stored thereon a computer program, characterized in that the computer program, when executed in a computer, causes the computer to execute the modular hot plug control method of the circuit board according to any one of claims 1 to 7.