CN113885418A - Remote monitoring system and method for multi-machine-cabin environmental parameters - Google Patents

Abstract

The application discloses a remote monitoring system and a method for multi-machine-cabin environmental parameters, which are characterized in that a server is provided with a monitoring processing module and a data transceiver module which is in communication connection with a plurality of acquisition devices in different functional cabins of a quantum computer hardware system, and a display device is arranged, so that each acquisition device in different functional bins of the quantum computer hardware system can transmit acquired environmental parameter data to the server in real time and remotely through the connection with the server, and the server carries out monitoring processing and display and early warning processing of monitoring results on the received environmental parameter data, therefore, the method and the device realize real-time remote monitoring of the environmental parameters of the multiple bins of the quantum computer, can effectively improve the working efficiency of the quantum computer in monitoring the environmental parameters of the functional bins of the quantum computer, and reduce the interference caused by the manual monitoring process.

Description

Remote monitoring system and method for multi-machine-cabin environmental parameters

Technical Field

The application belongs to the technical field of information monitoring, and particularly relates to a remote monitoring system and method for multi-machine-cabin environmental parameters.

Background

The operation of the superconducting quantum computer is easily interfered by the environment, the temperature, the humidity, the noise and the like can interfere the normal operation of the computer, if some item of the computer can not meet the requirement, the experiment can not be carried out, for example, the superconducting quantum computer needs an extremely low temperature working environment, a dilution refrigerator is needed to enable the temperature to reach below 20mk, and the superconducting characteristic can be generated in the low temperature environment.

The quantum computer has numerous hardware system devices, and is respectively stored in a plurality of function bins, and the environmental parameter requirements of each function bin are different. The whole machine integration environment is a physical environment where a quantum computer works, all parts of equipment forming the quantum computer are integrally packaged at present, an integrated machine bin is divided into a plurality of machine bins (function bins) according to functions, and the signal transmission efficiency and the working efficiency of the whole machine are improved through the optimization on the physical layout.

For the supervision of the environmental parameters of each functional bin of the quantum computer, the prior art needs manual work to monitor the environmental parameters on site, so that an administrator needs to continuously move in the bin to check the environmental parameters until the environmental parameters reach a proper range, the subsequent operation of the quantum computer can be carried out, the working efficiency is low, and the movement of personnel can generate vibration to influence the computing environment.

Disclosure of Invention

In view of this, the present application provides a remote monitoring system and method for multi-bin environmental parameters, so as to improve the working efficiency of monitoring the environmental parameters of each functional bin of a quantum computer and reduce the interference caused by manual monitoring.

The specific technical scheme is as follows:

a remote monitoring system for multi-bin environmental parameters, the system comprising:

the acquisition devices are arranged in different function bins of the quantum computer hardware system and are used for acquiring environmental parameter data in the corresponding function bins;

the server comprises a data receiving and transmitting module and a monitoring processing module; wherein: the data transceiver module is in communication connection with the plurality of acquisition devices and is used for receiving environmental parameter data acquired by the plurality of acquisition devices in different functional bins of the quantum computer hardware system; the monitoring processing module is used for respectively monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins based on matched monitoring logic to obtain monitoring results of the environmental parameters in the functional bins;

and the display device is used for displaying the monitoring results of the environmental parameters in the functional bins on the interface, and carrying out early warning reminding on the interface under the condition that the monitoring results of the environmental parameters in the functional bins represent abnormal environmental parameters.

Optionally, the system is divided into an application layer, a service layer and a data layer;

the plurality of acquisition devices arranged in different functional bins of the quantum computer hardware system are positioned in a data layer; the data transceiver module and the monitoring processing module in the server are positioned in a service layer; the display device is in an application layer.

Optionally, the plurality of collecting devices include different sensors among a temperature sensor, a humidity sensor, a vibration sensor, and a noise sensor;

the monitoring processing module is specifically configured to execute any one or more of the following processes when monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins respectively:

comparing the temperature data acquired by the temperature sensors in the corresponding functional bins with a preset temperature threshold value, and obtaining a temperature monitoring result based on the comparison result;

comparing humidity data acquired by the humidity sensors in the corresponding functional bins with a preset humidity threshold value, and obtaining a humidity monitoring result based on the comparison result;

comparing vibration data acquired by the vibration sensors in the corresponding functional bins with a preset vibration threshold value, and obtaining a vibration monitoring result based on the comparison result;

and comparing the noise data collected by the noise sensor in the corresponding functional bin with a preset noise threshold value, and obtaining a noise monitoring result based on the comparison result.

Optionally, the data transceiver module is provided with different transmission protocols corresponding to different types of sensors;

when receiving environmental parameter data collected by a plurality of collecting devices arranged in different functional bins of a quantum computer hardware system, the data transceiver module is specifically used for:

based on different matched transmission protocols, the environmental parameter data collected by different types of sensors arranged in different functional bins of the quantum computer hardware system are respectively received.

Optionally, the data transceiver module is a serial port transceiver module.

Optionally, the monitoring processing module is further configured to: and before monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins, converting the environmental parameter data in the form of analog signals into environmental parameter data in the form of digital signals.

Optionally, the system further includes:

and the short message early warning module is arranged on the application layer and used for sending abnormal processing reminding information when the environmental parameters in the functional cabin are abnormal to a set manager in a short message mode.

A remote monitoring method for environmental parameters of multiple machine bins comprises the following steps:

respectively acquiring environmental parameter data in each function bin by utilizing a plurality of acquisition devices arranged in different function bins of a quantum computer hardware system;

receiving environmental parameter data collected by a plurality of collecting devices arranged in different functional bins of a quantum computer hardware system;

based on matched monitoring logic, respectively monitoring and processing the received environmental parameter data acquired by a plurality of acquisition devices in different functional bins to obtain monitoring results of the environmental parameters in each functional bin;

and displaying the monitoring results of the environmental parameters in each functional bin on the interface, and carrying out early warning reminding on the interface under the condition that the monitoring results of the environmental parameters in the corresponding functional bins represent abnormal environmental parameters.

Optionally, the plurality of collecting devices include different sensors among a temperature sensor, a humidity sensor, a vibration sensor, and a noise sensor;

the monitoring processing is respectively carried out on the received environmental parameter data acquired by the plurality of acquisition devices in the different functional bins, and the monitoring processing comprises any one or more of the following processing:

comparing the temperature data acquired by the temperature sensors in the corresponding functional bins with a preset temperature threshold value, and obtaining a temperature monitoring result based on the comparison result;

comparing humidity data acquired by the humidity sensors in the corresponding functional bins with a preset humidity threshold value, and obtaining a humidity monitoring result based on the comparison result;

comparing vibration data acquired by the vibration sensors in the corresponding functional bins with a preset vibration threshold value, and obtaining a vibration monitoring result based on the comparison result;

and comparing the noise data collected by the noise sensor in the corresponding functional bin with a preset noise threshold value, and obtaining a noise monitoring result based on the comparison result.

Optionally, the receiving environmental parameter data collected by a plurality of collecting devices disposed in different functional bins of the quantum computer hardware system includes:

based on different matched transmission protocols, the environmental parameter data collected by different types of sensors arranged in different functional bins of the quantum computer hardware system are respectively received.

According to the above scheme, the remote monitoring system and method for multi-cabin environmental parameters provided by the application, by arranging a monitoring processing module and a data transceiver module which is in communication connection with a plurality of acquisition devices in different functional bins of a quantum computer hardware system in a server, and a display device is arranged, so that each acquisition device in different functional bins of the quantum computer hardware system can transmit acquired environmental parameter data to the server in real time and remotely through the connection with the server, and the server carries out monitoring processing and display and early warning processing of monitoring results on the received environmental parameter data, therefore, the method and the device realize real-time remote monitoring of the environmental parameters of the multiple bins of the quantum computer, can effectively improve the working efficiency of the quantum computer in monitoring the environmental parameters of the functional bins of the quantum computer, and reduce the interference caused by the manual monitoring process.

Drawings

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

FIG. 1 is a schematic structural diagram of a multi-warehouse environmental parameter remote monitoring system provided in the present application;

FIG. 2 is an architecture diagram of a three-tier architecture of a multi-bay remote monitoring system for environmental parameters provided herein;

fig. 3 is a schematic flow chart of a remote monitoring method for multi-cabin environmental parameters provided in the present application.

Detailed Description

The technical solutions in 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 obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The applicant finds that the superconducting quantum computer is easily influenced by the environment in work, the hardware system devices of the quantum computer are numerous and are respectively stored in a plurality of functional bins (machine bins), and the environmental parameter requirements of each functional bin are different. The real-time detection of the environmental parameters (temperature, humidity, noise and the like) of each functional bin is an important guarantee for the whole machine operation of the quantum computer, so that the remote monitoring system and the remote monitoring method for the environmental parameters of the multiple functional bins are provided for monitoring the important parameters and ensuring the normal operation of the quantum computer.

Referring to fig. 1, a schematic structural diagram of a multi-warehouse environment parameter remote monitoring system is provided, which includes a plurality of collecting devices 10, a server 20 and a display device 30. Wherein:

and the plurality of acquisition devices 10 are arranged in different functional bins of the quantum computer hardware system and are used for acquiring the environmental parameter data in the corresponding functional bins.

The quantum computer complete machine system comprises: quantum chip, dilution refrigerator, low-temperature device and circuit, measurement and control integrated machine, UPS (Uninterrupted Power supply) Power supply and other equipment.

The different functional bins of the quantum computer hardware system can include but are not limited to quantum bin, measurement and control bin, peripheral bin and classical bin. Specifically, a quantum chip of a quantum computer is stored in a quantum bin, a measurement and control integrated machine (measurement and control equipment) is placed in a measurement and control empty bin, a power supply, a water-cooling machine and the like are placed in an external bin, a classic computer is placed in a classic bin, an air compressor configured by a dilution refrigerator is large in noise, and needs to be separated from the measurement and control equipment as much as possible to reduce interference in a measurement and control process, so that the measurement and control integrated machine is placed in the external bin.

The plurality of collecting devices 10 disposed in different functional bins of the quantum computer hardware system include, but are not limited to, different sensors among a temperature sensor, a humidity sensor, a vibration sensor, a noise sensor, and the like, so as to respectively collect data corresponding to environmental parameters such as temperature, humidity, vibration, noise, and the like in the machine bin.

With reference to the three-layer system structure provided in fig. 2, the embodiment of the present application divides the remote monitoring system for multi-warehouse environmental parameters into three layers: an application layer, a service layer, and a data layer. The data layer can also be called as a resource layer, the application layer is arranged at the upper layer of the service layer, the service layer is arranged at the upper layer of the data layer, and the data layer is the lowest layer in the three-layer structure.

The data layer represents a physical layer where a plurality of bin sensors are located, namely, a plurality of sensors arranged in different functional bins of a quantum computer hardware system are specifically located in the data layer; the data layer is used for summarizing environmental parameter data acquired by different sensors in real time and transmitting the environmental parameter data to the upper service layer.

The server 20 includes a data transceiver module 21 and a monitoring processing module 22.

The data transceiver module 21 is in communication connection with a plurality of acquisition devices in each functional bin of the quantum computer hardware system, and is configured to receive environmental parameter data acquired by the plurality of acquisition devices.

And the monitoring processing module 22 is configured to monitor and process the received environmental parameter data acquired by the multiple acquisition devices in different functional bins based on the matched monitoring logic, so as to obtain a monitoring result of the environmental parameter in each functional bin.

The server 20 includes a data transceiver module and a monitoring processing module, which are both located in a service layer of the three-layer architecture shown in fig. 2, that is, the service layer provides the data transceiver module and the monitoring processing module, and is used to implement transition of environmental parameter data collected by the sensors in each cabin from the data layer to the application layer.

The monitoring processing module on the server can be realized in the form of a program module with a required monitoring processing function, and the monitoring processing of the data of each environmental parameter is realized by judging the threshold value according to different threshold value standards of different environmental parameters.

Specifically, taking the example that the environmental parameter data collected by the sensors in each cabin includes temperature, humidity, vibration and noise data, the monitoring processing module may specifically perform any one or more of the following monitoring processes:

1) comparing the temperature data acquired by the temperature sensors in the corresponding functional bins with a preset temperature threshold value, and obtaining a temperature monitoring result based on the comparison result;

2) comparing humidity data acquired by the humidity sensors in the corresponding functional bins with a preset humidity threshold value, and obtaining a humidity monitoring result based on the comparison result;

3) comparing vibration data acquired by the vibration sensors in the corresponding functional bins with a preset vibration threshold value, and obtaining a vibration monitoring result based on the comparison result;

4) and comparing the noise data collected by the noise sensor in the corresponding functional bin with a preset noise threshold value, and obtaining a noise monitoring result based on the comparison result.

That is, the monitoring processing module compares the temperature, humidity, vibration and noise values of the temperature, humidity, vibration and noise data acquired by the sensors in each machine cabin with the correspondingly set temperature threshold, humidity threshold, vibration threshold and noise threshold respectively, and after comparison, if the value of a certain environmental parameter is not in the normal parameter value range indicated based on the set threshold, the environmental parameter is represented to be abnormal, otherwise, the environmental parameter is represented to be normal.

In implementation, optionally, the program module (monitoring processing module) of the service layer may use the python module to acquire environmental parameter data acquired by different hardware sensor devices, and perform threshold judgment according to respective standards corresponding to different parameters.

In addition, the monitoring processing module also performs signal conversion processing on the environmental parameter signals of the machine cabin sensors before monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional cabins, and specifically converts the environmental parameter data in the form of analog signals into the environmental parameter data in the form of digital signals.

And the display device 30 is used for displaying the monitoring results of the environmental parameters in the functional bins on the interface, and performing early warning and reminding on the interface under the condition that the monitoring results of the environmental parameters in the functional bins represent abnormal environmental parameters.

The display device is located in the application layer in the three-layer architecture shown in fig. 2, and is used for providing a UI interface for a user in the application layer, and providing a function of displaying environmental parameter data of each bin body, a function of displaying a monitoring result indicating whether the environmental parameter data is abnormal or not, and a function of warning and reminding in an abnormal situation based on the UI interface.

In implementation, a Web interface can be designed through a Web application program, and environmental parameter data of each cabin, monitoring results of whether the cabin is abnormal or not and early warning reminding information under the abnormal condition are displayed on a display device based on the form of the Web interface.

If a certain environmental parameter exceeds the normal range, that is, the environmental parameter is abnormal, the method can be but not limited to adopt a red early warning mark displayed in association with the abnormal environmental parameter on the Web interface to perform early warning and reminding.

The program of the Web application can be, but is not limited to, the functions of UI interface display, early warning reminder and the like are realized by using languages such as Html, Css, JavaScript and the like.

According to the scheme, the remote monitoring system for the environmental parameters of the multiple machine bins is characterized in that the server is provided with the monitoring processing module and the data transceiver module which is in communication connection with the plurality of acquisition devices in the bins with different functions of the quantum computer hardware system, and a display device is arranged, so that each acquisition device in different functional bins of the quantum computer hardware system can transmit acquired environmental parameter data to the server in real time and remotely through the connection with the server, and the server carries out monitoring processing and display and early warning processing of monitoring results on the received environmental parameter data, therefore, the method and the device realize real-time remote monitoring of the environmental parameters of the multiple bins of the quantum computer, can effectively improve the working efficiency of the quantum computer in monitoring the environmental parameters of the functional bins of the quantum computer, and reduce the interference caused by the manual monitoring process.

In an embodiment, optionally, the data transceiver module on the server may be a serial port transceiver module, the data transceiver module is provided with different transmission protocols corresponding to different types of sensors, such as Zigbee, Modbus, EtherCAT transmission protocols, and the like, and the data transceiver module, such as the serial port transceiver module, respectively receives environment parameter data acquired by different types of sensors arranged in different function bins of the quantum computer hardware system based on the corresponding different transmission protocols matched with each other.

In an embodiment, optionally, the remote monitoring system for environmental parameters of multiple machine warehouses disclosed by the application further includes a short message early warning module arranged on the application layer, and is configured to send an exception handling reminding message of an exception of the environmental parameters in the functional warehouse to a set administrator in a short message manner.

Specifically, for the early warning information under the condition of abnormal environmental parameters displayed on the UI interface, such as a red early warning mark with abnormal temperature, if it is monitored that there is no operation performed by a technician even if the preset time length is exceeded (the temperature of the corresponding cabin is not restored to the normal range), the system can send a short message prompt to a preset administrator through the short message early warning module to prompt the administrator to process the abnormal environmental parameters as soon as possible.

That is to say, the basic processing flow of the remote monitoring system for multi-warehouse environmental parameters in the present application is the remote monitoring flow for multi-warehouse environmental parameters implemented by the three-layer structure shown in fig. 2, and on this basis, a short message early warning module is further added, so that not only the early warning reminding can be performed on the user in case of abnormal environmental parameters at the UI interface, but also a short message can be sent to the administrator to perform the abnormal processing reminding in case of no response for a long time and no processing for abnormal environmental parameters for a long time.

In addition, the present application also discloses a remote monitoring method for multiple machine-warehouse environmental parameters, which is specifically based on the remote monitoring system for multiple machine-warehouse environmental parameters provided by any of the above system embodiments, and referring to fig. 3, the method includes the following processing steps:

step 301, a plurality of acquisition devices arranged in different functional bins of the quantum computer hardware system are used for respectively acquiring environmental parameter data in each functional bin.

The quantum computer complete machine system comprises: quantum chip, dilution refrigerator, low-temperature device and circuit, measurement and control integrated machine, UPS (Uninterrupted Power supply) Power supply and other equipment.

The different functional bins of the quantum computer hardware system can include but are not limited to quantum bin, measurement and control bin, peripheral bin and classical bin. Specifically, a quantum chip of a quantum computer is stored in a quantum bin, a measurement and control integrated machine (measurement and control equipment) is placed in a measurement and control empty bin, a power supply, a water-cooling machine and the like are placed in an external bin, a classic computer is placed in a classic bin, an air compressor configured by a dilution refrigerator is large in noise, and needs to be separated from the measurement and control equipment as much as possible to reduce interference in a measurement and control process, so that the measurement and control integrated machine is placed in the external bin.

The plurality of collecting devices arranged in different functional bins of the quantum computer hardware system comprise but are not limited to different sensors in a temperature sensor, a humidity sensor, a vibration sensor, a noise sensor and the like, so as to be used for respectively collecting environmental parameter data such as temperature, humidity, vibration and/or noise in the corresponding machine bin.

As shown in fig. 2, the system based on which the remote monitoring method for multiple machine-cabin environmental parameters is based in the embodiment of the present application is divided into three layers: the system comprises an application layer, a service layer and a data layer (or called resource layer), wherein the application layer is arranged at the upper layer of the service layer, the service layer is arranged at the upper layer of the data layer, and the data layer is the bottommost layer in a three-layer structure.

The data layer represents a physical layer where a plurality of bin sensors are located, namely, a plurality of sensors arranged in different functional bins of a quantum computer hardware system are specifically located in the data layer; the data layer is used for summarizing parameter information of different sensors in real time and transmitting the information to the upper service layer.

In this step 301, a plurality of sensors in the data layer are used to collect environmental parameter data of the functional bins where the plurality of sensors are located respectively.

Step 302, receiving environmental parameter data collected by a plurality of collecting devices arranged in different functional bins of a quantum computer hardware system.

And 303, respectively monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins based on the matched monitoring logic to obtain the monitoring result of the environmental parameter in each functional bin.

Based on the system of the above embodiment, step 302 may specifically employ a data transceiver module in the server to receive environmental parameter data collected by a plurality of collecting devices disposed in different functional bins of the quantum computer hardware system.

In step 303, the monitoring processing module in the server may be used to monitor and process the received environmental parameter data collected by the multiple collecting devices in different functional bins.

The server includes a data transceiver module and a monitoring processing module in a service layer of the three-layer architecture shown in fig. 2, that is, the service layer provides the data transceiver module and the monitoring processing module, and is used to implement transition of environmental parameter data acquired by the sensors in each cabin from the data layer to the application layer.

In step 303, when the monitoring processing module in the server is used to monitor and process the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins, the monitoring processing of each environmental parameter data can be realized by performing threshold judgment according to different threshold standards of different environmental parameters.

Specifically, taking the example that the environmental parameter data collected by the sensors in each cabin includes temperature, humidity, vibration, and noise data, step 303 may specifically perform any one or more of the following monitoring processes:

1) comparing the temperature data acquired by the temperature sensors in the corresponding functional bins with a preset temperature threshold value, and obtaining a temperature monitoring result based on the comparison result;

2) comparing humidity data acquired by the humidity sensors in the corresponding functional bins with a preset humidity threshold value, and obtaining a humidity monitoring result based on the comparison result;

3) comparing vibration data acquired by the vibration sensors in the corresponding functional bins with a preset vibration threshold value, and obtaining a vibration monitoring result based on the comparison result;

4) and comparing the noise data collected by the noise sensor in the corresponding functional bin with a preset noise threshold value, and obtaining a noise monitoring result based on the comparison result.

That is, in step 303, the monitoring processing module is used to compare the temperature, humidity, vibration and noise values respectively indicated by the temperature, humidity, vibration and noise data collected by the sensors in each cabin with the correspondingly set temperature threshold, humidity threshold, vibration threshold and noise threshold, if the value of a certain environmental parameter is not within the normal parameter value range set based on the set threshold, the environmental parameter is represented to be abnormal, otherwise, the environmental parameter is represented to be normal.

In addition, before the monitoring processing module is used to monitor and process the received environmental parameter data acquired by the plurality of acquisition devices in the different functional bins in step 303, the monitoring processing module may also be used to perform signal conversion processing on the environmental parameter signals of the sensors of each machine bin, specifically to convert the environmental parameter data in the form of analog signals into the environmental parameter data in the form of digital signals.

And 304, displaying the monitoring results of the environmental parameters in each functional bin on the interface, and carrying out early warning reminding on the interface under the condition that the monitoring results of the environmental parameters in the corresponding functional bins represent abnormal environmental parameters.

Based on the system of the above embodiment, in step 304, the display device may be specifically used to display the monitoring result and the information such as the warning prompt.

The display device is located in the application layer of the three-layer framework shown in fig. 2, and is used for providing a UI interface for a user in the application layer, and providing an early warning function for displaying the environmental parameter data of each bin body, the monitoring result of whether the bin body is abnormal or not and the early warning function under the abnormal condition based on the UI interface.

In the implementation, a Web interface may be designed in advance through a Web application program, and in this step 304, the environmental parameter data of each bin, the monitoring result of whether the bin is abnormal or not, and the warning information in the abnormal condition are displayed on the display device based on the Web interface form. If a certain environmental parameter exceeds the normal range, that is, the environmental parameter is abnormal, the method can be but not limited to adopt a red early warning mark displayed in association with the abnormal environmental parameter on the Web interface to perform early warning and reminding.

The program of the Web application can be, but is not limited to, the functions of UI interface display, early warning reminder and the like are realized by using languages such as Html, Css, JavaScript and the like.

In addition, in an embodiment, the receiving, in step 302, environmental parameter data acquired by a plurality of acquisition devices disposed in different functional bins of the quantum computer hardware system may be further implemented as:

based on different matched transmission protocols, such as Zigbee, Modbus, EtherCAT transmission protocols and the like, respectively receiving environmental parameter data acquired by different types of sensors arranged in different function bins of a quantum computer hardware system.

In one embodiment, the method of the present application may further comprise: and sending abnormal processing reminding information of the environmental parameter abnormity in the functional cabin to a set manager in a short message mode.

Specifically, for the early warning reminding information under the condition of abnormal environmental parameters displayed on the UI interface, for example, the preset reminding of abnormal temperature, if it is monitored that the preset time length is exceeded and no technician operates (the temperature of the corresponding cabin is not restored to the normal range), the short message warning module in the system of the above embodiment may be used to send a short message reminding to a preset administrator.

That is to say, the basic processing flow of the remote monitoring method for the multi-warehouse environmental parameters in the application is the remote monitoring flow of the multi-warehouse environmental parameters realized by the three-layer structure shown in fig. 2, and on this basis, the short message early warning module-based early warning processing is further added, so that not only the early warning reminding can be performed on the user under the condition that the environmental parameters are abnormal at the UI interface, but also the short message can be sent to the administrator to perform the abnormal processing reminding under the condition that no response is performed for a long time and the abnormal environmental parameters are not processed for a long time.

In summary, by using the system and method of the embodiment of the application to perform real-time and remote environmental parameter monitoring on multiple machine bins of a quantum computer hardware system, the walking of operators in the bins is reduced, and further the vibration of the whole machine system is reduced, so that the interference on the quantum computer is reduced, and meanwhile, the working efficiency of the operators is improved.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

For convenience of description, the above system or apparatus is described as being divided into various modules or units by function, respectively. Of course, the functionality of the units may be implemented in one or more software and/or hardware when implementing the present application.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present application may be essentially or partially implemented in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments of the present application.

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

The foregoing is only a preferred embodiment of the present application and it should be noted that those skilled in the art can make several improvements and modifications 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 (10)

1. A remote monitoring system for multiple-bin environmental parameters, the system comprising:

the acquisition devices are arranged in different function bins of the quantum computer hardware system and are used for acquiring environmental parameter data in the corresponding function bins;

the server comprises a data receiving and transmitting module and a monitoring processing module; wherein: the data transceiver module is in communication connection with the plurality of acquisition devices and is used for receiving environmental parameter data acquired by the plurality of acquisition devices in different functional bins of the quantum computer hardware system; the monitoring processing module is used for respectively monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins based on matched monitoring logic to obtain monitoring results of the environmental parameters in the functional bins;

and the display device is used for displaying the monitoring results of the environmental parameters in the functional bins on the interface, and carrying out early warning reminding on the interface under the condition that the monitoring results of the environmental parameters in the functional bins represent abnormal environmental parameters.

2. The system of claim 1, wherein the system is divided into an application layer, a service layer, and a data layer;

the plurality of acquisition devices arranged in different functional bins of the quantum computer hardware system are positioned in a data layer; the data transceiver module and the monitoring processing module in the server are positioned in a service layer; the display device is in an application layer.

3. The system of claim 1, wherein the plurality of collection devices comprise different ones of a temperature sensor, a humidity sensor, a vibration sensor, and a noise sensor;

the monitoring processing module is specifically configured to execute any one or more of the following processes when monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins respectively:

comparing the temperature data acquired by the temperature sensors in the corresponding functional bins with a preset temperature threshold value, and obtaining a temperature monitoring result based on the comparison result;

comparing humidity data acquired by the humidity sensors in the corresponding functional bins with a preset humidity threshold value, and obtaining a humidity monitoring result based on the comparison result;

comparing vibration data acquired by the vibration sensors in the corresponding functional bins with a preset vibration threshold value, and obtaining a vibration monitoring result based on the comparison result;

and comparing the noise data collected by the noise sensor in the corresponding functional bin with a preset noise threshold value, and obtaining a noise monitoring result based on the comparison result.

4. The system of claim 3, wherein the data transceiver module is provided with different transmission protocols corresponding to different types of sensors;

when receiving environmental parameter data collected by a plurality of collecting devices arranged in different functional bins of a quantum computer hardware system, the data transceiver module is specifically used for:

based on different matched transmission protocols, the environmental parameter data collected by different types of sensors arranged in different functional bins of the quantum computer hardware system are respectively received.

5. The system of claim 4, wherein the data transceiver module is a serial port transceiver module.

6. The system of claim 1, wherein the monitoring processing module is further configured to: and before monitoring and processing the received environmental parameter data acquired by the plurality of acquisition devices in different functional bins, converting the environmental parameter data in the form of analog signals into environmental parameter data in the form of digital signals.

7. The system of claim 2, further comprising:

and the short message early warning module is arranged on the application layer and used for sending abnormal processing reminding information when the environmental parameters in the functional cabin are abnormal to a set manager in a short message mode.

8. A remote monitoring method for multi-cabin environmental parameters is characterized by comprising the following steps:

respectively acquiring environmental parameter data in each function bin by utilizing a plurality of acquisition devices arranged in different function bins of a quantum computer hardware system;

receiving environmental parameter data collected by a plurality of collecting devices arranged in different functional bins of a quantum computer hardware system;

based on matched monitoring logic, respectively monitoring and processing the received environmental parameter data acquired by a plurality of acquisition devices in different functional bins to obtain monitoring results of the environmental parameters in each functional bin;

and displaying the monitoring results of the environmental parameters in each functional bin on the interface, and carrying out early warning reminding on the interface under the condition that the monitoring results of the environmental parameters in the corresponding functional bins represent abnormal environmental parameters.

9. The method of claim 8, wherein the plurality of acquisition devices comprise different ones of a temperature sensor, a humidity sensor, a vibration sensor, and a noise sensor;

the monitoring processing is respectively carried out on the received environmental parameter data acquired by the plurality of acquisition devices in the different functional bins, and the monitoring processing comprises any one or more of the following processing:

comparing the temperature data acquired by the temperature sensors in the corresponding functional bins with a preset temperature threshold value, and obtaining a temperature monitoring result based on the comparison result;

comparing humidity data acquired by the humidity sensors in the corresponding functional bins with a preset humidity threshold value, and obtaining a humidity monitoring result based on the comparison result;

comparing vibration data acquired by the vibration sensors in the corresponding functional bins with a preset vibration threshold value, and obtaining a vibration monitoring result based on the comparison result;

and comparing the noise data collected by the noise sensor in the corresponding functional bin with a preset noise threshold value, and obtaining a noise monitoring result based on the comparison result.

10. The method of claim 9, wherein receiving environmental parameter data collected by a plurality of collection devices disposed in different functional bins of a quantum computer hardware system comprises:

based on different matched transmission protocols, the environmental parameter data collected by different types of sensors arranged in different functional bins of the quantum computer hardware system are respectively received.

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