CN214376003U - Processing system for processing industrial data based on edge calculation - Google Patents

Abstract

The utility model discloses a processing system that handles industrial data based on edge calculation, include: a plurality of low speed I/O interfaces; the input end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with a low-speed I/O device; the output end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with the low-speed signal bus; a plurality of high speed I/O interfaces; each low-speed I/O interface in the plurality of high-speed I/O interfaces is connected with a high-speed I/O device; the output end of each high-speed I/O interface in the plurality of high-speed I/O interfaces is connected with the high-speed signal bus; the low-speed signal bus and the high-speed signal bus are connected with the bus controller; the memory is connected with the bus controller; the system comprises a plurality of processors, a memory and a plurality of storage units, wherein each processor in the plurality of processors is connected with the memory; and the central terminal is connected with the memory and each processor in the plurality of processors. The utility model discloses can gather processing industry field data fast.

Description

Processing system for processing industrial data based on edge calculation

Technical Field

The utility model relates to an industrial control technical field especially relates to a processing system that handles industrial data based on edge calculation.

Background

With the development of industrial automation technology, a distributed control system starts to enter various automation control fields in a large scale, data collected by various terminal devices on a control field needs to be collected quickly and timely and subjected to subsequent processing, some existing in-time methods can collect field data timely but cannot process the field data timely, some can process the collected data quickly, but cannot collect field data timely, namely cannot collect field industrial data quickly and timely and process the field industrial data timely.

Therefore, it is necessary to provide a system for rapidly collecting industrial field data and processing the industrial field data in time.

SUMMERY OF THE UTILITY MODEL

The utility model provides a processing system who handles industrial data based on edge calculation to gather industrial field data fast, and in time handle it.

In order to achieve the above object, the utility model provides a following scheme:

a processing system for processing industrial data based on edge computing, comprising:

a plurality of low speed I/O interfaces;

the input end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with a low-speed I/O device;

the output end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with the low-speed signal bus;

a plurality of high speed I/O interfaces;

each low-speed I/O interface in the plurality of high-speed I/O interfaces is connected with a high-speed I/O device;

the output end of each high-speed I/O interface in the plurality of high-speed I/O interfaces is connected with the high-speed signal bus;

the low-speed signal bus and the high-speed signal bus are connected with the bus controller;

a memory connected with the bus controller;

a number of processors, each processor of the number of processors connected with the memory;

and the central terminal is connected with the memory and each processor in the plurality of processors and is used for monitoring the working state of each processor in the plurality of processors.

Preferably, the method further comprises the following steps:

a display coupled to each of the number of processors.

Preferably, the method further comprises the following steps: the priority judger is positioned inside the bus controller and used for judging the priority of the terminal equipment according to a pre-stored priority sequence list.

Preferably, the storage device further comprises a high-speed data transmission bus, an output end of each of the plurality of high-speed I/O interfaces is further connected with one end of the high-speed data transmission bus, and the other end of the high-speed data transmission bus is connected with the data transmission interface of the storage device.

Preferably, the data transmission system further comprises a low-speed data transmission bus, an output end of each of the plurality of low-speed I/O interfaces is further connected with one end of the low-speed data transmission bus, and the other end of the low-speed data transmission bus is connected with the data transmission interface of the memory.

Preferably, the high-speed data transmission bus adopts a PCI data bus.

Preferably, the low-speed data transmission bus adopts an ISA data bus.

The utility model discloses a following technological effect:

the utility model discloses data according to industrial field device produce speed and arrange corresponding IO interface to data based on edge calculation with a plurality of treater are handled in time to the data of gathering, thereby can enough in time gather industrial field data and can in time handle it again.

Drawings

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

Fig. 1 is a schematic structural diagram of a system for processing industrial data based on edge calculation according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the components of the processing module of FIG. 1;

fig. 3 is a schematic flow chart of a method for processing industrial data based on edge calculation according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

In the field of industrial control, a plurality of terminal devices are needed to collect data of an industrial field, some of the terminal devices are high-speed devices, some of the terminal devices are low-speed devices, and for some industrial field scenes, a plurality of terminal devices are needed to cooperate to collect field data, for example, in the scene, ten terminal devices may be needed to collect field data, when the ten terminal devices collect the field data, a first terminal device collects data of a first time period, the first terminal device immediately transmits the collected data to a memory to store after collecting the data of the first time period, a processor calls the data from the memory to perform real-time processing, a second terminal device starts to work to collect the data of a second time period, and similarly, the second terminal device immediately sends the collected data to the memory to store after collecting the data of the second time period, and then the processor calls the data from the memory to perform real-time processing, and the steps are repeated in a circulating way until the industrial data generated in the industrial field are acquired and processed.

Referring to fig. 1, the present invention firstly provides a processing system for processing industrial data based on edge calculation, which includes the following contents:

a plurality of low speed I/O interfaces;

the input end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with a low-speed I/O device;

the output end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with the low-speed signal bus;

a plurality of high speed I/O interfaces;

each low-speed I/O interface in the plurality of high-speed I/O interfaces is connected with a high-speed I/O device;

the output end of each high-speed I/O interface in the plurality of high-speed I/O interfaces is connected with the high-speed signal bus;

the low-speed signal bus and the high-speed signal bus are connected with the bus controller;

a memory connected with the bus controller;

a number of processors, each processor of the number of processors connected with the memory;

and the central terminal is connected with the memory and each processor in the plurality of processors and is used for monitoring the working state of each processor in the plurality of processors.

Further optimizing the scheme, still include: a display coupled to each of the number of processors.

Further optimizing the scheme, still include: the priority judger is positioned inside the bus controller and used for judging the priority of the terminal equipment according to a pre-stored priority sequence list.

The optimization scheme further comprises a high-speed data transmission bus, wherein the output end of each high-speed I/O interface in the plurality of high-speed I/O interfaces is also connected with one end of the high-speed data transmission bus, and the other end of the high-speed data transmission bus is connected with the data transmission interface of the memory.

The optimization scheme further comprises a low-speed data transmission bus, wherein the output end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is also connected with one end of the low-speed data transmission bus, and the other end of the low-speed data transmission bus is connected with the data transmission interface of the memory.

In a further optimization scheme, the high-speed data transmission bus adopts a PCI data bus.

In a further optimization scheme, the low-speed data transmission bus adopts an ISA data bus.

The utility model also provides a method of handling industrial data based on edge calculation, including following content:

and S1, receiving data transmission requests sent by a plurality of high-speed data transmission interfaces through the first signal bus.

And S2, receiving data transmission requests sent by a plurality of low-speed data transmission interfaces through a second signal bus.

In the industrial field, some terminal devices generate data fast, and some terminal devices generate data slow, so that corresponding I/O interfaces are required to be arranged according to the situation. In steps S1 and S2, the first signal bus is a high-speed signal bus through which the data transmission request sent by the high-speed data transmission interface of the arrangement is received, and the first signal bus is a low-speed signal bus through which the data transmission request sent by the low-speed data transmission interface of the arrangement is received.

And S3, judging the communication sequence with the plurality of high-speed data transmission interfaces and the plurality of low-speed data transmission interfaces based on the pre-stored priority sequence list.

At some moments, can have a plurality of data transmission interfaces to send the request simultaneously and carry out data transmission's request, so need judge the request that receives earlier which data transmission interface and send, the embodiment of the utility model provides a rule based on priority judges, numbers terminal equipment's priority promptly in advance to the decision has gathered data simultaneously at a plurality of terminal equipment (equipment), when carrying out data transmission through corresponding interface request, receives earlier which equipment produced data.

And S4, sequentially receiving the data sent by the plurality of high-speed data transmission interfaces and the plurality of low-speed data transmission interfaces based on the communication sequence, and sending the data to a memory for storage.

After determining which device has received the data transmission request first in step S3, the data generated by the terminal device is received in order according to the priority list in step S3, and the data is sent to the memory for storage.

And S5, acquiring the work busy state of a plurality of processors and acquiring the number of the processor in the idle work state.

The embodiment of the utility model provides an in, owing to there are a plurality of high-speed equipment or low-speed equipment data collection, need handle these data of collection, so need a plurality of treater to handle these data, some treater are in busy state, and some treater is in idle state, so need acquire the information that is in idle operating condition's treater.

And S6, sending the data to a processor in an idle working state for processing.

In this step, the collected data is distributed to the processor in an idle working state for processing.

In a further optimization scheme, the sequentially receiving data sent by the plurality of high-speed data transmission interfaces and the plurality of low-speed data transmission interfaces, and sending the data to a memory for storage specifically includes:

numbering each high-speed data transmission interface in the plurality of high-speed data transmission interfaces respectively, and sending the data acquired by each high-speed data transmission interface together with the number to the memory by each high-speed data transmission interface in the plurality of high-speed data transmission interfaces;

and each low-speed data transmission interface in the low-speed data transmission interfaces respectively numbers, and sends the acquired data together with the number to the memory.

According to the further optimization scheme, at least two high-speed data transmission interfaces in the plurality of high-speed data transmission interfaces acquire data generated by the same high-speed terminal equipment at different time periods in the working process.

In a further optimization scheme, for a case that the at least two high-speed data transmission interfaces collect data generated by the same high-speed terminal device at different time periods in a working process, the sending of the data to a processor in an idle working state for processing specifically includes:

stamping the Data generated by the same high-speed terminal equipment in different time periods in the working process according to the generation time of the Data to obtain a Data sequence { Data1, time1, Data2, time2, …, DataN, timeN } containing the time stamp;

acquiring label information of at least two processors in idle working states and the at least two processors in idle working states;

circularly distributing the Data sequence { Data1, time1, Data2, time2, …, DataN, time eN } containing the time stamp to the at least two processors in idle working states for processing;

and splicing the processed data according to the time stamp to obtain the processed complete data.

In a further optimization scheme, at least two low-speed data transmission interfaces in the plurality of low-speed data transmission interfaces acquire data generated by the same low-speed terminal device in different time periods in the working process.

In a further optimization scheme, for a case that the at least two low-speed data transmission interfaces acquire data generated by the same low-speed terminal device at different time periods in a working process, the sending of the data to a processor in an idle working state for processing specifically includes:

stamping time stamps on Data generated by the same high-speed terminal equipment in different time periods in the working process according to the generation time of the Data to obtain a Data sequence { Data1, time1, Data2, time2, …, DataM, time }, wherein the Data sequence contains the time stamps;

acquiring label information of at least two processors in idle working states and the at least two processors in idle working states;

and circularly distributing the Data sequence { Data1, time1, Data2, time2, …, DataM, time M } containing the time stamp to the at least two processors in idle working states for processing.

And splicing the processed data according to the time stamp to obtain the processed complete data.

The utility model discloses data according to industrial field device produce speed and arrange corresponding IO interface to data based on edge calculation with a plurality of treater are handled in time to the data of gathering, thereby can enough in time gather industrial field data and can in time handle it again.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (7)

1. A processing system for processing industrial data based on edge computing, comprising:

a plurality of low speed I/O interfaces;

the input end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with a low-speed I/O device;

the output end of each low-speed I/O interface in the plurality of low-speed I/O interfaces is connected with the low-speed signal bus;

a plurality of high speed I/O interfaces;

each low-speed I/O interface in the plurality of high-speed I/O interfaces is connected with a high-speed I/O device;

the output end of each high-speed I/O interface in the plurality of high-speed I/O interfaces is connected with the high-speed signal bus;

the low-speed signal bus and the high-speed signal bus are connected with the bus controller;

a memory connected with the bus controller;

a processing module comprising a plurality of processors, each of the plurality of processors coupled to the memory;

and the central terminal is connected with the memory and each processor in the plurality of processors and is used for monitoring the working state of each processor in the plurality of processors.

2. The edge-computing-based processing system for processing industrial data according to claim 1, further comprising:

a display coupled to each of the number of processors.

3. The edge-computing-based processing system for processing industrial data according to claim 1, further comprising:

the priority judger is positioned inside the bus controller and used for judging the priority of the terminal equipment according to a pre-stored priority sequence list.

4. The edge computing-based processing system for processing industrial data according to claim 1, further comprising a high-speed data transmission bus, wherein an output of each of the plurality of high-speed I/O interfaces is further connected to one end of the high-speed data transmission bus, and the other end of the high-speed data transmission bus is connected to the data transmission interface of the memory.

5. The edge computing-based processing system for processing industrial data according to claim 1, further comprising a low-speed data transmission bus, wherein an output of each of the plurality of low-speed I/O interfaces is further connected to one end of the low-speed data transmission bus, and the other end of the low-speed data transmission bus is connected to the data transmission interface of the memory.

6. The edge computing-based processing system for processing industrial data according to claim 4, wherein the high-speed data transmission bus is a PCI data bus.

7. The edge computing-based processing system for processing industrial data according to claim 5, wherein the low speed data transmission bus is an ISA data bus.

Images