CN112632898A - Intelligent model conversion method, system and medium for special-shaped circuit board diagram design - Google Patents

Abstract

The invention belongs to the technical field of data processing in the design of special-shaped circuit board diagrams, and discloses an intelligent model conversion method, a system and a medium for the design of special-shaped circuit board diagrams, wherein a client performs data configuration on a structural model and a special-shaped circuit model in the circuit design to obtain a configuration file; carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation; acquiring imported structure model drawing layer data based on the established lamination relationship; and sending the obtained structural model drawing layer data to a server. The automatic intelligence provided by the invention changes any one of the structural model and the special-shaped circuit model, and the other one is automatically changed; the time for modifying the model manually can be greatly reduced, and the conversion efficiency of the model is improved, so that the efficiency of product design is improved. Easy to learn and use and simple to operate. Automatic checking of circuit connectivity and process inspection can be achieved.

Description

Intelligent model conversion method, system and medium for special-shaped circuit board diagram design

Technical Field

The invention belongs to the technical field of data processing in the design of special-shaped circuit board diagrams, and particularly relates to an intelligent model conversion method, system and medium for the design of special-shaped circuit board diagrams.

Background

At present, with the development of wireless and mobile communication technologies, AI, internet of things and intelligent manufacturing technologies, the application of microwave special-shaped circuit design is greatly increased, and more complex circuit structural units are provided. For enterprises, it is very necessary to obtain technical means for intelligent model conversion for designing special-shaped circuit board diagrams.

In the prior art I, for a long time, the circuit model designed by the special-shaped circuit design board diagram is manually processed, designers need to repeatedly import and export an outer frame graph, a complex device shape and a multilayer cavity structure graph by depending on experience, and graph breakpoints and defect problems can not be quickly positioned and checked.

In the second prior art, a special-shaped circuit board diagram design file is created in structural software, repeated modification and adjustment in circuit design are often required, model assignment is manually performed one by one, tools are switched to repeatedly position problems, and errors are manually checked.

In the third prior art, in the design of a microwave special-shaped circuit, a large amount of grounding processing, complex device graph merging and splitting processing are required, and the post-processing functions often need human intervention, so that much inconvenience is brought to the design.

Through the above analysis, the problems and defects of the prior art are as follows:

(1) in the prior art, time is consumed, errors are easy to occur, certain hidden dangers are brought to design engineering, the accuracy and convenience of a graphic processing process cannot be guaranteed, the research and development standardization is not facilitated, and the design quality is not guaranteed.

(2) In the second prior art, the inspection of circuit model attributes and model preprocessing cannot be given, the automatic construction capability of the model under multi-layer stacking is lacked, and the identification and inspection are carried out by depending on manpower, so that the automatic inspection of circuit connectivity and process inspection cannot be carried out in the design process at the later stage.

(2) In the third prior art, an optimization processing technology for imported circuit and device models is lacked, batch post-processing of model layers cannot be realized with a circuit design model, automatic analysis and inspection capability of the model cannot be realized, and engineering design capability cannot be rapidly improved.

The difficulty in solving the above problems and defects is:

(1) the method solves the problem of reconstruction of a complex cavity multi-dimensional model in design.

(2) The intelligent model has the problems of error correction capability and quick error positioning.

(3) Real-time data communication and two-way ECO interactivity.

(4) And (3) a data conversion interface model automatic processing technology.

(5) Compatibility of data conversion interfaces.

The significance of solving the problems and the defects is as follows:

compared with the prior art, the invention mainly constructs a communication mechanism between the structure software and the circuit design software; and meanwhile, establishing a corresponding relation of model elements for designing the special-shaped circuit board diagram and designing a corresponding relation of the laminated layers. The intelligent model conversion purpose of the special-shaped circuit board diagram design is achieved by defining the software interface relation.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an intelligent model conversion method, an intelligent model conversion system and an intelligent model conversion medium for designing a special-shaped circuit board diagram.

The invention is realized in this way, an intelligent model conversion method for the design of the special-shaped circuit board diagram is applied to the client, and the intelligent model conversion method for the design of the special-shaped circuit board diagram comprises the following steps:

the client performs data configuration on a structural model and a special-shaped circuit model in circuit design to obtain a configuration file;

carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation;

acquiring imported structure model drawing layer data based on the established lamination relationship;

and sending the obtained structural model drawing layer data to a server.

Further, the obtaining of the imported structure model graph layer data includes:

carrying out real-time operation of the imported structure model layer: and the client calls a CADPlug.cxt program function to acquire a working path, and simultaneously starts a server program to receive an operation command sent by circuit design software at any time.

The obtaining of the imported structure model drawing layer data further includes:

when the imported data is a closed graph, importing the data into Shape and not closing the data into a line; the cavity groove layer is automatically dug to form an opening, the enclosure frame layer automatically generates a device, and the plate frame layer is guided in after being converted into plate edges;

when the imported data contains the attribute graph, the cavity groove layer, the enclosure frame layer and the plate frame layer are imported by adopting a closed graph.

The client performs data configuration on a structural model and a special-shaped circuit model in circuit design, and before acquiring a configuration file, the data configuration needs to be performed as follows:

the definition configuration file is a data input and output processing and enhancement function developed by an internal programming language of the circuit design software, and comprises automatic menu loading and external program calling control.

Another objective of the present invention is to provide an intelligent model conversion method for designing an irregular circuit board diagram, which is applied to a server, and the intelligent model conversion method for designing an irregular circuit board diagram includes:

the server side updates data by using a server side program; and obtaining the CAD drawing data of the special-shaped circuit model, and sending the obtained CAD drawing data of the special-shaped circuit model to a server for displaying.

Further, the updating data by using the server program includes:

calling a CADPlug.cxt program according to the selected layer output data, sending a command to a server program, and informing the server program to update CAD drawing data;

the step of sending the obtained special-shaped circuit model CAD drawing data to a server for display comprises the following steps:

and calling a CADPlug.cxt program to obtain the current display state, and then sending a command to a server program to display the updated CAD layer.

The intelligent model conversion method for the special-shaped circuit board diagram design further comprises the following steps:

the client transmits a circuit design software command to the server;

and after the server processes the command sent by the client by running a server program, the server performs interactive operation with the client to complete the direct control of the structural model, wherein the operation comprises the reading and writing of data, and the read and written data are displayed.

Another object of the present invention is to provide an intelligent model conversion system for designing a special-shaped circuit board diagram, which includes:

the client is used for carrying out data configuration on a structural model and a special-shaped circuit model in circuit design to obtain a configuration file; carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation; acquiring imported structure model drawing layer data based on the established lamination relationship; transmitting the obtained data of the structural model graph layer to a server;

the server side updates data by using a server side program; obtaining special-shaped circuit model CAD drawing data, and sending the obtained special-shaped circuit model CAD drawing data to a server for display;

the extension component is used for defining the functions of data input and output processing and enhancement developed by the internal programming language of the circuit design software, including automatic menu loading and external program calling control; and the method is also used for normal operation of the operation functions of the client and the server.

Another object of the present invention is to provide a computer device, which includes a memory and a processor, wherein the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the intelligent model conversion method for designing the special-shaped circuit board diagram.

Another object of the present invention is to provide a computer-readable storage medium, which stores a computer program, and when the computer program is executed by a processor, the processor executes the intelligent model conversion method for designing the special-shaped circuit board diagram.

By combining all the technical schemes, the invention has the advantages and positive effects that:

the invention develops a software program based on a circuit design software/structural design software development language; meanwhile, a software program is developed through a COM interface and by using a VB language.

The program provided by the invention automatically and intelligently converts the structural model into the special-shaped circuit model; the time for manually modifying the model is greatly reduced, and the conversion efficiency of the model is improved, so that the efficiency of product design is improved.

The model of the special-shaped circuit board diagram can be interacted between structural software and circuit design software to realize layer synchronous display; any one of the structural model and the special-shaped circuit model is automatically and intelligently changed, and the other one is automatically changed; easy to learn and use and simple to operate.

The program provided by the invention automatically maps the corresponding stack relation according to the configuration file. Automatic checking of circuit connectivity and process inspection can be achieved.

The method can obviously improve the design capability of the complex microwave circuit layout, improves the efficiency of the early development process of the layout by more than 50 percent, improves the accuracy of model design by more than 40 percent, and improves the once-through rate of the design process by more than 30 percent, thereby greatly accelerating the research and development efficiency of the microwave complex heterogeneous layout design, promoting the rapid promotion of the research and development process and ensuring the quality improvement of products.

Drawings

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

Fig. 1 is a flowchart of an intelligent model conversion method for designing a special-shaped circuit board diagram according to an embodiment of the present invention.

Fig. 2 is a flowchart for performing data model nesting according to an embodiment of the present invention.

Fig. 3 is a flowchart for performing data model mapping according to an embodiment of the present invention.

Fig. 4 is a flowchart of a real-time operation of a structural model drawing according to an embodiment of the present invention.

Fig. 5 is a data flow diagram in the import structure software according to the embodiment of the present invention.

Fig. 6 is a flowchart of an updated structural design drawing according to an embodiment of the present invention.

Fig. 7 is a flowchart of layer synchronization display according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Aiming at the problems in the prior art, the invention provides an intelligent model conversion method, system and medium for designing a special-shaped circuit board diagram, and the invention is described in detail below with reference to the accompanying drawings.

The invention mainly constructs a communication mechanism between the structure software and the circuit design software; and meanwhile, establishing a corresponding relation of model elements for designing the special-shaped circuit board diagram and designing a corresponding relation of the laminated layers. The intelligent model conversion purpose of the special-shaped circuit board diagram design is achieved by defining the software interface relation.

The CADPlugMain. ile file is defined as data input and output processing developed by an internal programming language of circuit design software and some enhanced functions, including automatic menu loading, external program calling control and the like; an interactiveCommand.exe command processing program, which is equivalent to a client program and can transmit a circuit design software command to an ECAD _ CAD _ Co-design.exe server program, when the ECAD _ CAD _ Co-design.exe processing is finished, the interactiveCommand.exe is informed to carry out corresponding command processing and carry out interactive operation with circuit design software, which is equivalent to a bridging effect, and the program can automatically exit after the processing is finished; the ECAD _ CAD _ Co-design.exe program is a main program directly interacting with the structural software, and completes direct control on the structural software, such as data reading, writing and other operations; ocx and mswinsck.ocx programs are extension components of ECAD _ CAD _ Co-design.exe and interactivecommand.exe, and a loss can cause the program to fail to work normally. When the installation is carried out, the two files need to be registered, and the operation of the step automatically completes the registration in an installation program package; the ini file is a software configuration file, and can be set according to the favorite or some specific operations of a user, such as layer configuration, and the software can complete automatic layer configuration during working.

As shown in fig. 1, the present invention provides an intelligent model conversion method for designing a special-shaped circuit board diagram, which is applied to a client and includes:

s101, the client performs data configuration on a structural model and a special-shaped circuit model in circuit design to obtain a configuration file;

s102, carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation;

s103, acquiring imported structure model drawing layer data based on the established lamination relationship;

s104, updating the data of the acquired structure model drawing layer data by using a server program; and obtaining the CAD drawing data of the special-shaped circuit model, and sending the obtained CAD drawing data of the special-shaped circuit model to a server for displaying.

The invention also provides an intelligent model conversion method for designing the special-shaped circuit board diagram, which is applied to a server side and comprises the following steps:

the client transmits a circuit design software command to the server;

and after the server processes the command sent by the client by running a server program, the server performs interactive operation with the client to complete the direct control of the structural model, wherein the operation comprises the reading and writing of data, and the read and written data are displayed.

The invention also provides an intelligent model conversion system for designing the special-shaped circuit board diagram, which comprises the following components:

the client is used for carrying out data configuration on a structural model and a special-shaped circuit model in circuit design to obtain a configuration file; carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation; acquiring imported structure model drawing layer data based on the established lamination relationship; transmitting the obtained data of the structural model graph layer to a server;

the server side updates data by using a server side program; obtaining special-shaped circuit model CAD drawing data, and sending the obtained special-shaped circuit model CAD drawing data to a server for display;

the extension component is used for defining the functions of data input and output processing and enhancement developed by the internal programming language of the circuit design software, including automatic menu loading and external program calling control; and the method is also used for normal operation of the operation functions of the client and the server.

The technical solution of the present invention is further described with reference to the following specific examples.

The invention develops a software program based on a circuit design software/structural design software development language; meanwhile, a software program is developed through a COM interface and by using a VB language. The method comprises the following specific steps:

(1) data model nesting is performed as shown in fig. 2.

Firstly, opening the control function of the existing structural file, establishing communication between structural software and circuit design software by quickly accessing or opening historical data, and preparing for interaction and model nesting conversion relation between a structural design drawing and the circuit design software. Before the structural design drawing and the circuit design software carry out data interaction, a target drawing needs to be appointed, after a command for opening the structural drawing is executed in the circuit design software, a user selects a data model needing interaction, and an incidence relation of model nesting is established.

(2) And carrying out data model mapping. As shown in fig. 3.

Before the structure data is imported, firstly, the correctness of the structure data needs to be checked and verified in batches, such as coplanarity, insulativity, non-closure and nesting, and the data can be correctly converted into circuit design software after checking, and a check result report can be interactively positioned, hierarchically displayed, edited and modified on line with the data in the structure drawing, and can provide high-brightness mode operations such as centering, full-screen display, single-layer display and the like. Before data conversion, mapping relation processing including lamination and graphic data is required, model mapping with circuit design is realized by performing normalized layer and block definition in structural data, and data association is performed by automatically reading a circuit structure diagram layer.

(3) And (5) operating the structural model drawing in real time (opening the structural model drawing). As shown in fig. 4.

Firstly, opening a historical structure model drawing path list to select or browse a local structure model drawing.

And secondly, prompting an opening error when the drawing path of the structural model does not exist.

Finally, the connection state is prompted on the system tray (the prompt disappears automatically after a period of time), and the right-key tray can be viewed or reconnected when the connection state needs to be viewed again. Icon status of tray: the connection is successful, namely, the normal icon is displayed, and the gray icon is displayed when the connection is abnormal. When the connection state is checked, the connected and opened files can be directly seen, and the drawing path and the name of the structural model are displayed.

The user with the role of 'designer' clicks the 'Open CAD File' menu (executes the command of opening CAD drawing) on the AutoCAD Plug menu bar of the ECAD SiP/PCB software, calls the 'CADPlug.cxt' program function to obtain a working path, simultaneously starts the ECAD _ CAD _ Co-design.exe server program, and receives the operation command sent by the ECAD at any time. The subsequent functional operation must be performed in a state that the CAD drawing is opened.

(4) Data in the structured software is imported as shown in fig. 5.

And importing the structural model data as a core function of software, and starting the conversion work of the model data after ensuring the successful CAD-ECAD communication.

1. And checking the data of the structure drawing, and interactively confirming and correcting the checked problem and the structure drawing and prompting a user.

2. The original circuit design data is backed up prior to modifying the circuit design data.

3. And automatically locking the drawing data of the structure model after the data is successfully imported.

4. Only nested classes are allowed to pass, and other problems that are checked out must be corrected.

5. It is conceivable to find the start or end point of an object.

6. The reference point of the imported structure drawing can be specified, and the original point of the structure drawing is unified with the original point of the circuit design drawing under the normal condition.

7. The conversion operation can be carried out in a layered mode, and model data graphs consistent with the structural drawing are automatically generated in circuit design software according to the corresponding relation of the layers.

If the imported data is closed graph, the imported data is shaped and not closed into a line (the width is 0). However, the frame layer, the cavity layer and the plate frame layer must be checked to be introduced, because these layers need to be subjected to special treatments during conversion, such as: automatically digging an opening in the cavity groove layer; automatically generating a device by the enclosing frame layer; the plate frame layer is converted into a plate edge. If there is an attribute graphic, it must be a closed graphic regardless of the layer.

And clicking an 'Open CAD File' menu (executing a command of opening a CAD drawing) on a CAD Plug menu bar defined by the circuit design software, calling a 'CADPlug.cxt' program function to acquire a working path, starting an ECAD _ CAD _ Co-design.exe server program, and receiving an operation command sent by the circuit design software at any time.

(5) And updating the structural design drawing as shown in fig. 6.

When the data updating of the circuit design is led into the structure design drawing, the circuit attributes of the electrical layer, such as network names, can be synchronized into the structure drawing without repeated confirmation and modification, thereby greatly facilitating the synchronization of the design data, and before the structure design drawing is updated, the layer selection can be performed firstly.

1. And updating the ECAD design into a structural design drawing.

2. The network name of the metal layer needs to be brought into the structural design drawing.

3. The corresponding layer settings need to be recorded in the structural design drawing.

4. The ECAD design data is automatically locked after the data import is successful.

5. And when the original locking is carried out during updating, the locking is carried out after the updating is finished by automatic unlocking.

6. A data reference position may be specified.

After executing a command for updating structural software data, calling a 'CADPlug.cxt' program function to output data according to a layer selected by a user, then starting an Interactive Command.exe program to send a command to an ECAD _ CAD _ Co-design.exe server program, and informing the ECAD _ CAD _ Co-design.exe to update CAD drawing data. A metal reference layer can be output, with a name REF _ xxxxxx (xxxxxx stands for the corresponding layer name in the circuit design software), and the contents are a trace pattern and a via pattern.

These layers are masked for the next time the structural software drawing is imported, and are only used for user design reference.

(6) The layers are displayed synchronously as shown in fig. 7.

And synchronously switching the layers in the circuit design software to the structural data drawing for displaying, thereby facilitating the confirmation of the graphs of the two parties. The pattern layer refers not only to a metal layer, a solder resist layer, etc., but also includes a hole layer, etc.

The layer real-time bidirectional display is a drawing display relation for controlling two tools by the layer display state (on/off) in design.

When a user executes a layer synchronous display command of circuit design software and then calls a 'CADPlug.cxt' program function, the program firstly obtains a layer display state in the circuit design, then starts an Interactive Command.exe program to send a command to an ECAD _ CAD _ Co-design.exe server program, informs the ECAD _ CAD _ Co-design.exe program of updating the display of a CAD layer, and switches the corresponding layer display in a structural drawing at the moment to keep the display of the two layers consistent.

In summary, as an embodiment of the present invention: the intelligent model conversion method for the complex special-shaped circuit board diagram adopts a general model processing and optimizing algorithm to realize rapid model reconstruction and bidirectional interaction of a design model in a design tool, greatly improves and promotes the circuit layout design method for the complex diagram, has the technical advantages of simplicity, easiness in use, convenience, synergy and flow, is suitable for application occasions of rapid collaborative design and research and development of products, greatly improves the design efficiency of engineers, and accelerates the pace of successful market promotion of electronic products.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It should be noted that the embodiments of the present invention can be realized by hardware, software, or a combination of software and hardware. The hardware portion may be implemented using dedicated logic; the software portions may be stored in a memory and executed by a suitable instruction execution system, such as a microprocessor or specially designed hardware. Those skilled in the art will appreciate that the apparatus and methods described above may be implemented using computer executable instructions and/or embodied in processor control code, such code being provided on a carrier medium such as a disk, CD-or DVD-ROM, programmable memory such as read only memory (firmware), or a data carrier such as an optical or electronic signal carrier, for example. The apparatus and its modules of the present invention may be implemented by hardware circuits such as very large scale integrated circuits or gate arrays, semiconductors such as logic chips, transistors, or programmable hardware devices such as field programmable gate arrays, programmable logic devices, etc., or by software executed by various types of processors, or by a combination of hardware circuits and software, e.g., firmware.

The above description is only for the purpose of illustrating the present invention and the appended claims are not to be construed as limiting the scope of the invention, which is intended to cover all modifications, equivalents and improvements that are within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An intelligent model conversion method for designing an abnormal-shaped circuit board diagram is applied to a client side, and comprises the following steps:

the client performs data configuration on a structural model and a special-shaped circuit model in circuit design to obtain a configuration file;

carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation;

acquiring imported structure model drawing layer data based on the established lamination relationship;

and sending the obtained structural model drawing layer data to a server.

2. The intelligent model conversion method for the design of the special-shaped circuit board diagram according to claim 1, wherein the obtaining of the imported structure model diagram layer data comprises:

carrying out real-time operation of the imported structure model layer: and the client calls a CADPlug.cxt program function to acquire a working path, and simultaneously starts a server program to receive an operation command sent by circuit design software at any time.

3. The intelligent model conversion method for the design of the special-shaped circuit board diagram according to claim 1, wherein the obtaining of the imported structure model diagram data further comprises:

when the imported data is a closed graph, importing the data into Shape and not closing the data into a line; the cavity groove layer is automatically dug to form an opening, the enclosure frame layer automatically generates a device, and the plate frame layer is guided in after being converted into plate edges;

when the imported data contains the attribute graph, the cavity groove layer, the enclosure frame layer and the plate frame layer are imported by adopting a closed graph.

4. The intelligent model conversion method for the design of the special-shaped circuit board diagram according to claim 1, wherein the client performs data configuration on the structural model and the special-shaped circuit model in the circuit design, and before acquiring the configuration file, the method comprises the following steps:

the definition configuration file is a data input and output processing and enhancement function developed by an internal programming language of the circuit design software, and comprises automatic menu loading and external program calling control.

5. An intelligent model conversion method for designing an abnormal-shaped circuit board diagram is applied to a server side, and comprises the following steps:

the server side updates data by using a server side program; and obtaining the CAD drawing data of the special-shaped circuit model, and sending the obtained CAD drawing data of the special-shaped circuit model to a server for displaying.

6. The intelligent model conversion method for the design of the special-shaped circuit board diagram according to claim 5, wherein the updating of the data by using the server-side program comprises:

calling a CADPlug.cxt program according to the selected layer output data, sending a command to a server program, and informing the server program to update CAD drawing data;

the step of sending the obtained special-shaped circuit model CAD drawing data to a server for display comprises the following steps:

and calling a CADPlug.cxt program to obtain the current display state, and then sending a command to a server program to display the updated CAD layer.

7. The intelligent model conversion method for the design of special-shaped circuit board diagrams according to claim 5, wherein the intelligent model conversion method for the design of special-shaped circuit board diagrams further comprises:

the client transmits a circuit design software command to the server;

and after the server processes the command sent by the client by running a server program, the server performs interactive operation with the client to complete the direct control of the structural model, wherein the operation comprises the reading and writing of data, and the read and written data are displayed.

8. An intelligent model conversion system for designing a special-shaped circuit board diagram, which is characterized by comprising:

the client is used for carrying out data configuration on a structural model and a special-shaped circuit model in circuit design to obtain a configuration file; carrying out layer mapping on the structural model and the special-shaped circuit model by using the acquired configuration file, and establishing a corresponding lamination relation; acquiring imported structure model drawing layer data based on the established lamination relationship; transmitting the obtained data of the structural model graph layer to a server;

the server side updates data by using a server side program; obtaining special-shaped circuit model CAD drawing data, and sending the obtained special-shaped circuit model CAD drawing data to a server for display;

the extension component is used for defining the functions of data input and output processing and enhancement developed by the internal programming language of the circuit design software, including automatic menu loading and external program calling control; and the method is also used for normal operation of the operation functions of the client and the server.

9. A computer device comprising a memory and a processor, wherein the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the intelligent model transformation method for the design of the special-shaped circuit board diagram according to any one of claims 1 to 7.

10. A computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to execute the intelligent model conversion method for designing a special-shaped circuit board diagram according to any one of claims 1 to 7.

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