CN117111900A - Soft chip platform system for cross-platform function integration - Google Patents

Abstract

The invention relates to a soft chip platform system for cross-platform function integration, which is based on a soft chip technology, adopts an integrated circuit form to express a traditional program, and connects functional modules from different manufacturers, different platforms and different languages into a soft circuit form by chips to realize function integration; the method specifically comprises the following steps: the device comprises a component, a soft chip, a soft circuit, a soft chip library and a soft chip platform. The system can become an adhesive for various programming languages and various information products, can realize the rapid integration of the function modules among the cross-platforms, improves the integration efficiency, and can be suitable for a wide population; meanwhile, the soft chips with the same standard can be identified and used on different platforms, so that the dependence on the platforms is reduced, the soft chips can be used freely among the platforms, the knowledge accumulation and sharing capacity can be maximized, and the high fusion of the advantages of various industries is realized.

Description

Soft chip platform system for cross-platform function integration

Technical Field

The invention relates to the fields of Internet of things, scientific calculation, data acquisition, data processing, data mining, data statistics, data analysis, deep learning, AI, system integration and data transaction, in particular to a soft chip platform system for cross-platform function integration.

Background

At present, with the development of the Internet, the arrival of the Internet of things and the AI age, more and more Internet of things and AI products enter enterprises and ordinary people. The demands of people for software and hardware interconnection, information interconnection and AI function use are also increasing. Such as: the enterprise needs to transmit the process data of the control system to the ERP system, and needs to reach the MES system from the planning data on the ERP, which needs to master OPC, modbus, DNP, S and other various industrial communication protocols and master the call of the API/SDK interfaces of the ERP and the MES system. Another example is: the security monitoring department needs to monitor the flammable gas data of the enterprise, and the environmental protection department needs to monitor the environmental protection data of the enterprise, so that the communication protocol of each data system of the enterprise, the API/SDK interface of the security monitoring system and the API/SDK interface of the environmental protection system need to be mastered.

The solution to the above needs is to develop interfaces between systems through programming, which not only requires users to have certain programming capability, but also requires the systems to open corresponding interfaces, so that programmers have skilled use capability on the interfaces, and just interface interfaces are used for interfacing different industries, different professions and different programming languages, which requires programmers to master the corresponding programming languages, but also have different industry experiences and expertise, which definitely improves the development difficulty of the interfaces, has high development cost, reduces the integration efficiency of the systems, and is unfavorable for sharing and fusing related information of different industries.

Therefore, how to reduce the requirements on the programming capability and the professional capability of the user based on the complexity of the system interface and the communication protocol, to realize the rapid integration of the function modules between the cross-platforms, and to promote the fusion of the industry information is a problem to be solved by the technicians in the field.

Disclosure of Invention

In view of the above, the present invention provides a soft chip platform system for cross-platform function integration, which can realize the rapid integration of function modules between cross-platforms, achieve free integration of user terminals, reduce the integration threshold, and improve the integration efficiency.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the invention provides a soft chip platform system for cross-platform function integration, which is based on a soft chip technology, adopts an integrated circuit form to express a traditional program, and connects functional modules from different manufacturers, different platforms and different languages into a soft circuit form by chips to realize function integration; the method specifically comprises the following steps:

the element component is used for realizing the basic functions of data input, display output, logic control, arithmetic operation, logic operation, data conversion, timer, module packaging and wireless connection in the soft circuit; the meta-component code is described in a text language using a graphical symbolic representation with input and output pins, and the code information includes: meta-component name, annotation information, basic information, configuration parameters, input pin information, output pin information and function codes;

the soft chip is a package for calling the functional module, is represented by a graphic symbol with input and output pins, and adopts text language to describe the code of the soft chip, and the code information comprises: soft chip name, annotation information, basic information, configuration parameters, input pin information, output pin information, functional codes and embedded soft chip information;

the soft circuit is formed by effectively connecting the component and the soft chip through pins, so that the input and output coupling operation among different functional modules is realized, and the functional modules developed by different manufacturers, different platforms and different languages are bonded together, thereby realizing the application of function integration; describing the soft circuit code by adopting a text language;

the soft chip library is used for managing, searching, calling and publishing the soft chips on the platform;

the soft chip platform provides a development environment and a core operation engine for the element assembly, the soft chip and the soft circuit; and providing a function module manager for function registration, discovery and proxy for the soft chip and the soft chip library.

Preferably, the component specifically includes:

the input element component is used for being responsible for man-machine interaction and realizing data input, and specifically comprises the following steps: keyboard input, mouse input, bar code input, two-dimensional code input, video input, audio input, control input and file input;

the display element assembly is used for displaying output results and specifically comprises: data display, text display, graphic display, trend display, and multimedia display;

the logic control element component is used for controlling the operation sequence and specifically comprises the following steps: condition control, loop control, branch control, and parallel control;

an arithmetic operation unit component for performing a conventional arithmetic operation;

the logic operation element component is used for realizing logic operation and logic comparison;

the data conversion element component is used for realizing numerical value type conversion, character string operation, date operation, array operation, JSON operation, mapping operation, collection operation, linked list operation and queue operation;

a timer component for executing a specific program at regular time;

the packaging component is used for packaging a section of soft circuit into a module, reducing connecting wires of interfaces and improving the readability of the soft circuit;

the wireless connection element assembly is used for wireless connection element assemblies and soft chips, reduces the intersection of connecting wires and improves the program readability.

Preferably, the soft chip has the ability to nest the soft chip, thereby achieving more complex functions.

Preferably, the soft chip comprises a general soft chip and a professional soft chip;

the general soft chip is used for executing general functions, including mathematical operation, file operation, process operation, communication, equipment access and database access;

the professional soft chip is used for executing the professional function and the professional function server provides the computing service.

Preferably, the soft circuit can be separated from the platform to run under the support of the running environment; front-end applications and back-end applications can be developed; supporting encryption, the encrypted soft circuit is unreadable; and supporting a debugging switch, and after the debugging is closed, not allowing the debugging.

Preferably, the soft chip and the soft circuit with the same standard can be freely used among different platforms supporting the standard, so that the universality of the soft chip and the soft circuit is realized.

Preferably, the soft chip library comprises a system soft chip library and a user soft chip library;

the system soft chip library is used for storing various professional function soft chips provided by a soft chip platform or a third party professional platform and sharing the soft chips for each user;

the user soft chip library is used for storing the soft chips developed by the user and providing the soft chips for other projects of the user, and is also used for releasing the user soft chips to the system soft chip library for other users to use.

Preferably, the soft chip platform includes: a core engine, an IDE and a functional module manager.

The core engine is responsible for analysis and operation of the soft circuit; responsible for the logical implementation of the meta-component; the function of the universal soft chip is realized; as a communication agent of the soft chip and the function module manager; as an operating environment support for the compiled soft circuit;

the IDE includes: the editor is used for developing a soft circuit, adopting graphical programming and supporting graphic dragging; the compiler is used for checking the correctness of the soft circuit through compiling, and meanwhile, the soft chip or the component with the error can be marked by using the color, and the running code is generated after compiling; the debugger is used for debugging the soft circuit, removing faults, positioning pins, supporting nested chip debugging and meeting gradual debugging;

the function module manager is used for managing various professional function modules developed by a platform or a third party, and comprises: registering the function modules on the platform so that the user can find the function modules; function discovery, namely discovering related service routes through function codes; and the function proxy is used as a request response proxy between the core engine and the professional server.

Compared with the prior art, the invention has the following beneficial effects:

1. cross-platform rapid integration: the method realizes the rapid integration of the function modules among the cross-platforms, achieves the free integration of the user terminals, reduces the integration threshold and improves the integration efficiency.

2. Programming language binding agent: the soft chip is used as an adhesive for various programming languages, a programmer can use functional modules developed by various programming languages without mastering various programming languages, various complex application functions can be rapidly realized, and the soft chip is applicable to a wide population.

3. Industry information fusion: soft chips with the same standard can be identified and used on different platforms, so that the dependence of the soft chips on the platforms is reduced. Once the soft chip industry is standardized, the soft chip can be freely used among all platforms, the knowledge accumulation/sharing capability is maximized, and the advantages of all industries are highly integrated.

4. Effective replenishment of physical chips: standardized, industrialized soft chips would be an effective complement to physical chips. It will facilitate a wide range of communication, trading, of software functions.

5. The application range is wide: the invention is particularly suitable for the integrated design of the application aspects of the Internet of things, scientific calculation, data acquisition, data processing, data mining, data statistics, data analysis, deep learning, AI, system integration, data transaction and the like.

Drawings

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

FIG. 1 is a block diagram of a soft chip platform system provided by the present invention;

FIG. 2 is a basic working schematic diagram of the soft chip platform system provided by the invention;

FIG. 3 is a schematic diagram of the prior art interface development operation provided by the present invention;

FIG. 4 is a schematic diagram of a process for packaging into modules according to the present invention;

fig. 5 is a schematic diagram of wireless connection provided by the present invention;

FIG. 6 is a schematic diagram of a wired connection according to the present invention;

FIG. 7 is a schematic diagram of a process for packaging a soft chip according to the present invention;

FIG. 8 is a schematic diagram of a multi-platform application of an image recognition chip provided by the present invention;

FIG. 9 is a schematic diagram of an image recognition chip multi-system application provided by the present invention;

FIG. 10 is a schematic diagram of a general purpose soft chip unit function implementation provided by the present invention;

FIG. 11 is a schematic diagram of a functional implementation of a specialized soft chip unit provided by the present invention;

FIG. 12 is a schematic diagram of a soft circuit structure according to the present invention;

FIG. 13 is a schematic diagram of the operation of the core engine according to the present invention;

FIG. 14 is a schematic diagram of a process of recognizing a picture by a core engine according to the present invention;

FIG. 15 is a schematic diagram of a functional module manager according to the present invention;

fig. 16 is a simplified schematic diagram of a soft circuit provided by the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, the present embodiment provides a soft chip platform system for cross-platform function integration, based on a soft chip technology, the traditional program is expressed in the form of an integrated circuit, and function modules from different manufacturers, different platforms and different languages are connected into a soft circuit by chips to realize function integration; the method specifically comprises the following steps:

the element component is used for realizing the basic functions of data input, display output, logic control, arithmetic operation, logic operation, data conversion, timer, module packaging and wireless connection in the soft circuit; the meta-component code is described in a text language using a graphical symbolic representation with input and output pins, and the code information includes: meta-component name, annotation information, basic information, configuration parameters, input pin information, output pin information and function codes;

the soft chip is a package for calling the functional module, is represented by a graphic symbol with input and output pins, and adopts text language to describe the code of the soft chip, and the code information comprises: soft chip name, annotation information, basic information, configuration parameters, input pin information, output pin information, functional codes and embedded soft chip information;

the soft circuit is formed by effectively connecting the component and the soft chip through pins, so that the input and output coupling operation among different functional modules is realized, and the functional modules developed by different manufacturers, different platforms and different languages are bonded together, thereby realizing the application of function integration; describing the soft circuit code by adopting a text language;

the soft chip library is used for managing, searching, calling and publishing the soft chips on the platform;

the soft chip platform provides a development environment and a core operation engine for the element assembly, the soft chip and the soft circuit; and providing a function module manager for function registration, discovery and proxy for the soft chip and the soft chip library.

The system can realize the rapid integration of the function modules among the cross-platforms, improves the integration efficiency, becomes an adhesive for various programming languages, and can be suitable for a wide population; meanwhile, the soft chips with the same standard can be identified and used on different platforms, so that the dependence on the platforms is reduced, the soft chips can be used freely among the platforms, the knowledge accumulation and sharing capacity can be maximized, and the high fusion of the advantages of various industries is realized.

As shown in fig. 2, the nature of the interface is in the art to call the relevant SDK/API or communication protocol, to transfer in data, and to receive return data. The SDK/API or communication protocol of each system is different, the implementation is realized by a system with three parties or a soft chip platform, and the data transmission can be made into a unified standard. In the figure, the soft chip A/D carries input and output parameters and function codes, corresponding function modules are respectively called to the soft chip platform, and the soft chip platform respectively requests a function A to the system 1 and requests a function D to the system n according to the function codes. Finally, the function A/D execution result is received and outputted by the soft chip A/D, and then further processed. Based on the principle, the user only needs to care which soft chip needs to be called, and input data and receive the data, and does not need to care interface communication and function implementation details, so that the interface development difficulty is greatly reduced, and the interface development efficiency is improved.

The soft chip takes the form of an integrated circuit to express the conventional program. The following table shows the correspondence among the conventional program, the soft chip and the integrated circuit.

At present, how are the product companies providing internet of things and AI to achieve free integration of the ends of these digital products from different manufacturers? Such as:

1) The enterprise needs to transmit the process data of the control system to the ERP system and to reach the MES system from the planning data on the ERP.

2) The security department needs to monitor the flammable gas data of the enterprise, and the environmental protection department needs to monitor the environmental protection data of the enterprise.

3) Users need to integrate water usage, electricity usage data into their own housekeeping systems.

4) The user informs the intelligent sound box to control the intelligent household appliance without the voice recognition function through voice.

The solution to the above needs is to develop interfaces between systems through programming, which not only requires users to have certain programming capability, but also requires the systems to open corresponding interfaces, and programmers to have skilled use capability on the interfaces, and just interface is to interface with different industries, different professions and different programming languages, which requires the programmers to not only master the corresponding programming languages, but also have different industry experiences and expertise, which definitely improves the difficulty of interface development, has high development cost, and reduces the efficiency of system integration.

As shown in fig. 3, the system a adopts VC development to provide an OPC standard interface, and the system B adopts java development to provide an HTTP protocol, so that the interface must be used as opccient to communicate with the system a and communicate with the system B to perform HTTP communication, which requires that the interface developer simultaneously grasp the programming capabilities of OPC communication and HTTP communication.

As with the 4 requirements mentioned above, there are the same problems:

1) A programmer is required to master OPC, modbus, DNP, S and other various industrial communication protocols and master the call of an API/SDK interface of an ERP and MES system;

2) The communication protocol of each data system of an enterprise, the API/SDK interface of an security monitoring system and the API/SDK interface of an environmental protection system are required to be mastered;

3) The data acquisition API/SDK interface of the hydropower system and the API/SDK interface of the management system need to be mastered;

4) The API/SDK interface of the intelligent sound box and the API/SDK interface of the intelligent household appliance need to be mastered.

As can be seen, interface development is a difficulty in system integration.

Then, there is no technology to be concerned about the complexity of the interfaces and communication protocols of the systems, so that the information interconnection between the systems can be realized. For users, only data input and output and function integration are needed, and details of interface implementation are not needed, so that interface docking complexity is reduced. Based on the requirement, the invention adopts a soft chip technology to realize the rapid integration of the function modules among the cross-platforms and promote the fusion of industry information. The technology of free integration of the terminal greatly reduces the requirements on the programming capability and professional capability of the user, and even non-programming personnel and even common people can master the technology.

The following describes the component, the soft chip library, the soft circuit and the soft chip platform in detail.

In one embodiment, the features of the meta-component are as follows:

1) The device is provided with an input pin and an output pin, wherein the input pin is used for receiving parameters, and the output pin is used for outputting operation results. And the data flow between the element assembly and the soft chip is realized through the connection of the input pin and the output pin.

2) The input and output support simple data, complex data, JSON data, multimedia data, charts, and the like.

3) Each of the components has 1 disable/enable pin for controlling whether the current component is active or not and stopping when the program runs to the disabled component. The pin defaults to not displayed, and a double-click component may configure display/hide.

4) Meta-component code: different components can perform different functions because different components have different component codes. The meta-component code is text describing own information and is defined in a text format conforming to a standard. The components may be generic on a soft chip platform with the same standard.

The information of the meta-component includes the following information:

meta-component name: in a soft circuit, the names of the components are unique. Is defined by the user and displayed on the meta-component.

Annotation information: annotations defined by the user.

Basic information: function description, type, version information, owner information, development date defined by the platform.

Configuration parameters: such as parameters for communication with the device, etc. Is configured by the user.

Inputting pin information: pin number, each pin name, number, type of data entered. Defined by the system or by the user.

Output pin information: pin number, each pin name, number, type, data type of output. Defined by the system or by the user.

Functional coding: defined by the platform, for identifying the different functions. The functions of all the components are completed by a platform core engine, and the functions in the core engine are coded by adopting standards. The functional coding standards must be consistent for the components to run on different soft-chip platforms.

The types of the components include:

the input component is used for being responsible for man-machine interaction, realizing data input, and the functions of the different types of input components are shown in the following table:

the display element component is used for displaying an output result; wherein the display component has the following features:

input data support: data, text, charts, trends, multimedia, etc.; output support: data, text, charts, trends, multimedia, etc.; the number of input pins may define a double-click element, configurable display format, output device parameters, and the like.

The logic control element component is used for controlling the operation sequence and specifically comprises the following steps: condition control, loop control, branch control, and parallel control; control statements in conventional programs can be implemented.

The functions of the different types of logic control components are shown in the following table:

an arithmetic operation unit component for performing a conventional arithmetic operation; the functions of the different types of arithmetic operand components are as follows:

the logic operation element component is used for realizing logic operation and logic comparison; the functions of the different logical operand components are as follows:

the data conversion element component is used for realizing numerical value type conversion, character string operation, date operation, array operation, JSON operation, mapping operation, collection operation, linked list operation and queue operation; the functions of the different data conversion components are shown in the following table:

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a timer component for executing a specific program at regular time; the functions of the timer element assembly include:

realizing a timer in the traditional program; the input/output pins may be defined; the double-click element component configures the timer type.

The package component, as shown in fig. 4, is used for packaging a section of circuit into a module, reducing connecting wires of an interface, improving the readability of the soft circuit, and dragging the soft circuit in the left broken line into the module component, so that the interface is simplified to the right.

And the wireless connection element assembly is used for wireless connection element assembly soft chips, so that the connection wire crossing is reduced, and the program readability is improved. The wireless connection component is divided into a transmitting component and a receiving component. 1 transmitting subassembly may correspond to a plurality of receiving subassemblies.

As shown in fig. 5 and 6, the wireless connection is equivalent to a wired connection.

In one embodiment, the soft chip is a software middleware with complex functions of physical chip features, and complex functional applications can be built through connection of the soft chip. Corresponding to a chip in an integrated circuit or to a programming module in a conventional program.

The soft chip has the following basic characteristics:

1) The device is provided with an input pin and an output pin, wherein the input pin is used for receiving parameters, and the output pin is used for outputting operation results. And the data flow between the element assembly and the soft chip is realized through the connection of the input pin and the output pin.

2) The input and output support simple data, complex data, JSON data, multimedia data, charts, and the like.

3) Each soft chip has 1 disable/enable pin for controlling whether the current soft chip is active or not and stopping when the program runs to the disabled soft chip. The pin defaults to not displayed and the soft chip can be double-clicked to configure display/hide.

4) Soft chip code: different soft chips can perform different functions because different soft chips have different soft chip codes. The soft chip code is text describing the information of the soft chip code and is defined by adopting a text format conforming to the standard. The soft chip can be used commonly on a soft chip platform with the same standard.

The information of the soft chip includes the following information:

soft chip name: in a soft circuit, the name of the soft chip is unique. Is defined by the user and displayed on the soft chip.

Annotation information: annotations defined by the user.

Basic information: functional description, type, version information, owner information, development date defined by the platform or third party.

Configuration parameters: such as parameters for communication with the device, etc. Is configured by the user.

Inputting pin information: pin number, each pin name, number, type of data entered. Defined by the system or by the user.

Output pin information: pin number, each pin name, number, type, data type of output. Defined by the system or by the user.

Functional coding: is defined by the platform for identifying the functional module. All the functions of the soft chip are completed by the platform core engine or a third party, and all the functions have to be coded by adopting standard codes. The functional codes must be consistent for the soft chip to run on different soft chip platforms.

5) The method comprises the following steps: the soft circuit can be packaged into 1 functional chip, and is provided for other projects or other users to use. The soft chip is nested through the soft chip, thereby constructing complex functions.

As shown in fig. 7, the left soft circuit is packaged into 1 soft chip, and other items or users can directly use the chip to realize the function of the left soft circuit.

6) The system has reusability: the soft chip can be provided for different projects and different users to achieve the purpose of function multiplexing, which is particularly important for knowledge accumulation and knowledge sharing.

7) The method has the following universality: the soft chip defines the called function and the input and output parameter information, and after the information is standardized, the soft chip with the same standard can be identified and used on different platforms, so that the dependence of the soft chip on the platforms is reduced. Once the soft chip industry is standardized, the soft chip can be used freely among various platforms. Therefore, standardization of the soft chip is very important.

As shown in fig. 8, the image recognition chip defines a functional code of 100, the input pin 1 is a file input, and the output pin 1 is a binary output. Assuming that the hundred-degree soft chip platform and the Hua-Cheng soft chip platform adopt the same standard, the image recognition chip is used on the two platforms, and a picture recognition function module with the function code of 100 is called and is transmitted into the same file name, and a corresponding recognition result is output.

8) The method comprises the following steps: the programmability of the soft chip determines its extended performance.

9) The platform-crossing property is provided: the soft chip is essentially the coupling operation of input and output between the functional modules, the logic implementation of the functional modules is provided by a platform or a third party, and the soft chip is used for bonding the functional modules developed by different manufacturers, different platforms and different languages together, so that complex application is constructed. As shown in fig. 9, the same image recognition chip may call a hundred-degree Windows-based image recognition function, or may call a Linux-based image recognition function.

In one embodiment, the soft chips include general purpose soft chips and professional soft chips. The general soft chip is used for executing general functions, including mathematical operation, file operation, process operation, communication, equipment access and database access; the functions of the general-purpose chip are implemented by the core engine. That is, the execution of the generic chip is essentially the invocation of built-in function functions of the core engine. As shown in fig. 10, solving the SIN90, the SIN chip requests the core engine to execute the built-in SIN function, and the core engine returns the operation result to the SIN chip.

The professional soft chip is used for executing the professional function and the professional function server provides the computing service. . As shown in fig. 11, the flow is translated into chinese. The translation chip requests the core engine, the core engine forwards the request to the corresponding function server, and the function server returns the translation result (flower) to the translation chip.

In one embodiment, as shown in fig. 12, 1 "functional circuit" called "soft circuit" is formed by operatively connecting a plurality of components and soft chips, corresponding to the final product circuit board of the integrated circuit, which is a program in practice. The process of assembling the soft circuit from the soft chip is programming.

The soft circuit has the following characteristics:

1) The compiled soft circuit may be run off the platform, but requires operational environment support.

2) The soft circuit may be a front-end application or a back-end application.

3) The soft circuit supports encryption, and the encrypted soft circuit is unreadable.

4) The soft circuit supports the debugging switch, and after the debugging is closed, the debugging is not allowed.

5) The system has reusability: the soft circuit can be packaged into a soft chip and provided for different projects and different users to achieve the purpose of function multiplexing.

6) The platform-crossing property is provided: the soft circuit developed by the compliant soft chip can run on all compliant soft chip platforms.

The soft chip library comprises a system soft chip library and a user soft chip library;

the system soft chip library is used for storing various professional function soft chips provided by the soft chip platform or the third party professional platform and sharing the soft chips for each user;

the user soft chip library is used for storing the soft chips developed by the user and providing the soft chips for other projects of the user, and simultaneously, the user soft chips can be released to the system soft chip library for other users to use.

In one embodiment, the soft chip platform comprises: a core engine, a function module manager and an IDE;

the main functions of the core engine are as follows:

1) Is responsible for the analysis and operation of the soft circuit.

a) Is responsible for analyzing the element assembly, the soft chip and the soft circuit;

b) Controlling data flow and execution sequence between the element assembly and the soft chip;

c) Calling a corresponding functional module according to the element assembly and the soft chip;

d) And receiving the result returned by the functional module, and transmitting the result to the connected soft chips according to the logic sequence of the soft circuit. Returning to the execution of c).

2) Logic implementation of the meta-component;

3) The function of the universal soft chip is realized;

4) As a communication agent of the soft chip and the function module manager;

5) As an operating environment support for the compiled soft circuit;

the core engine works as shown in fig. 13;

1) The core engine scans the soft circuit from the beginning and receives input data;

2) Currently, a component, a core engine calls a built-in functional module;

3) The core engine returns the output of the functional module corresponding to the element assembly;

4) The core engine gives the output of the element assembly to the connected element assembly or the soft chip;

5) Currently, a general soft chip, and a core engine calls a built-in functional module;

6) The core engine returns the output of the functional module corresponding to the universal soft chip;

7) The core engine gives the output of the general soft chip to the connected component or soft chip;

8) The method is characterized in that the method is a professional soft chip at present and requests a corresponding functional module from a core engine;

9) The core engine judges that the function is not a built-in function and forwards the request to the function module manager;

10 The function module manager searches a professional server for providing the function module according to the requested function code, and forwards the request to the corresponding professional server to execute the corresponding function module;

11 The function module manager receives an execution result returned by the professional server;

12 The function module manager returns the execution result returned by the professional server to the core engine;

13 The core engine returns the calling result of the function module to the professional soft chip;

14 The core engine assigns the output of the specialized soft chip to the connected component or soft chip.

As shown in fig. 14, the recognition of the picture is realized, and the corresponding uppercase english word is output;

the soft circuit is implemented as follows:

1) The core engine receives image data;

2) The core engine processes the image identification request;

3) The core engine judges a non-built-in function and forwards the request to the function module manager;

4) The function module manager searches an image recognition module according to the request function code, is provided by the A server, forwards the request to the A server, and the A server executes image recognition;

5) The server A returns an image recognition result to the function module manager;

6) The function module manager returns the image recognition result to the core engine;

7) The core engine returns the identification result to the image identification chip;

8) The core engine gives the output of the image recognition chip to the translation chip;

9) The core engine processes the translation request;

10 The core engine judges the non-built-in function and forwards the request to the function module manager;

11 The function module manager searches the translation module according to the request function code, is provided by the B server, forwards the request to the B server, and the B server executes translation;

12 B), the server returns the translation result to the function module manager;

13 The function module manager returns the translation result to the core engine;

14 The core engine returns the translation result to the translation chip;

15 The core engine gives the translation chip output to the capitalization chip;

16 A core engine processes capitalization chip (universal chip) requests, converting words into capitalization;

17 The core engine returns the uppercase to the uppercase chip;

18 The capitalization chip outputs the final result.

The function module manager is used to manage various specialized function modules developed by a platform or a third party. The professional function module is logic for realizing the professional function, and is supported by a corresponding server for operation. The main functions of the function module manager are as follows:

1) Function registration: functional modules are registered on the platform so that the user can discover the functional modules.

2) Functional discovery: and finding out related functional modules and professional servers through the functional codes for further professional functional services.

3) Functional agent: acting as a request response proxy between the core engine and the specialized server.

The specific operation of the function module manager shown in fig. 15 includes;

1) Function registration: the functional module on the professional server is registered on the platform, and the functional code is 101.

2) The professional soft chip requests the function module manager, the function module manager obtains the function module as the function module on the professional server according to the function code 103 look-up table, and then requests the function module from the professional server.

3) The professional soft chip requests the function module manager, the function module manager obtains the function module as the function module on the professional server according to the function code 106 look-up table, and the function module is requested from the professional server next.

In one embodiment, the IDE is used for an integrated interface for soft circuit development, using graphical programming. The IDE includes:

1) An editor: the method is used for developing a soft circuit and adopts graphical programming. Graphics drag is supported. The output product of the editor is a soft circuit or a soft chip. In order to solve the problem of poor interface reading experience caused by too many connecting wires in graphical programming, three schemes are provided:

a) A soft chip is adopted;

b) Adopting a module element assembly;

c) A wireless connection component is employed.

As shown in fig. 16, the soft circuit in fig. 14 is packaged as a soft chip a, and the functions of image recognition and english reading are realized with the soft chip a and the reading chip.

a) The chip A identifies the input image and outputs CAT;

b) The reading chip receives the CAT word and outputs the CAT word to the loudspeaker element assembly;

c) After the soft chip is adopted, the whole soft circuit becomes concise and clear.

2) A compiler: checking the correctness of the soft circuit through compiling, outputting an error indication if the soft circuit is found to have errors, and simultaneously marking the error soft chip or component by using color; and generating running codes after compiling.

3 debugger: the method is used for debugging the soft circuit and removing faults. The debugger is provided with:

a) In the debugging mode, the soft circuit operates the detailed process and sequentially outputs row by row;

b) The related soft chip or the meta-component can be traced back by clicking each row of operation information;

c) Clicking the pin, and tracking the data of the pin;

d) The nested chip debugging is supported, and the debugging can be performed step by step;

e) When the operation is wrong, the related components or chips and pins are marked by colors, so that the debugging is convenient.

The system formed by the components, the soft chip library and the soft chip platform in the embodiment can realize the rapid integration of the function modules among the cross-platforms, improve the integration efficiency, become the adhesive of various programming languages and can be suitable for a wide population; meanwhile, the soft chips with the same standard can be identified and used on different platforms, so that the dependence on the platforms is reduced, the soft chips can be used freely among the platforms, the knowledge accumulation and sharing capacity can be maximized, and the high fusion of the advantages of various industries is realized.

In this specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, so that the same or similar parts between the embodiments are referred to each other. For the system disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A soft chip platform system for cross-platform function integration is characterized in that based on a soft chip technology, a traditional program is expressed in an integrated circuit mode, and function modules from different manufacturers, different platforms and different languages are connected into a soft circuit mode through chips to realize function integration; the method specifically comprises the following steps:

the element component is used for realizing the basic functions of data input, display output, logic control, arithmetic operation, logic operation, data conversion, timer, module packaging and wireless connection in the soft circuit; the meta-component code is described in a text language using a graphical symbolic representation with input and output pins, and the code information includes: meta-component name, annotation information, basic information, configuration parameters, input pin information, output pin information and function codes;

the soft chip is a package for calling the functional module, is represented by a graphic symbol with input and output pins, and adopts text language to describe the code of the soft chip, and the code information comprises: soft chip name, annotation information, basic information, configuration parameters, input pin information, output pin information, functional codes and embedded soft chip information;

the soft circuit is formed by effectively connecting the component and the soft chip through pins, so that the input and output coupling operation among different functional modules is realized, and the functional modules developed by different manufacturers, different platforms and different languages are bonded together, thereby realizing the application of function integration; describing the soft circuit code by adopting a text language;

the soft chip library is used for managing, searching, calling and publishing the soft chips on the platform;

the soft chip platform provides a development environment and a core operation engine for the element assembly, the soft chip and the soft circuit; and providing a function module manager for function registration, discovery and proxy for the soft chip and the soft chip library.

2. A soft-chip platform system for cross-platform functional integration according to claim 1, wherein the components specifically comprise:

the input element component is used for being responsible for man-machine interaction and realizing data input, and specifically comprises the following steps: keyboard input, mouse input, bar code input, two-dimensional code input, video input, audio input, control input and file input;

the display element assembly is used for displaying output results and specifically comprises: data display, text display, graphic display, trend display, and multimedia display;

the logic control element component is used for controlling the operation sequence and specifically comprises the following steps: condition control, loop control, branch control, and parallel control;

an arithmetic operation unit component for performing a conventional arithmetic operation;

the logic operation element component is used for realizing logic operation and logic comparison;

the data conversion element component is used for realizing numerical value type conversion, character string operation, date operation, array operation, JSON operation, mapping operation, collection operation, linked list operation and queue operation;

a timer component for executing a specific program at regular time;

the packaging component is used for packaging a section of soft circuit into a module, reducing connecting wires of interfaces and improving the readability of the soft circuit;

the wireless connection element assembly is used for wireless connection element assemblies and soft chips, reduces the intersection of connecting wires and improves the program readability.

3. A soft chip platform system for cross-platform functional integration according to claim 1, wherein the soft chip has the ability to nest the soft chip, thereby enabling more complex functions.

4. The system of claim 1, wherein the soft chip comprises a general purpose soft chip and a specialized soft chip;

the general soft chip is used for executing general functions, including mathematical operation, file operation, process operation, communication, equipment access and database access;

the professional soft chip is used for executing the professional function and the professional function server provides the computing service.

5. A soft chip platform system for cross-platform functional integration according to claim 1, wherein the soft circuit is capable of off-platform operation under the support of an operating environment; front-end applications and back-end applications can be developed; supporting encryption, the encrypted soft circuit is unreadable; and supporting a debugging switch, and after the debugging is closed, not allowing the debugging.

6. The system of claim 1, wherein the soft chip and the soft circuit with the same standard can be used freely between different platforms supporting the standard, thereby realizing the universality of the soft chip and the soft circuit, maximizing the knowledge accumulation and sharing capability and realizing the high fusion of the advantages of various industries.

7. The system of claim 1, wherein the soft chip library comprises a system soft chip library and a user soft chip library;

the system soft chip library is used for storing various professional function soft chips provided by a soft chip platform or a third party professional platform and sharing the soft chips for each user;

the user soft chip library is used for storing the soft chips developed by the user and providing the soft chips for other projects of the user, and is also used for releasing the user soft chips to the system soft chip library for other users to use.

8. A soft-chip platform system for cross-platform functional integration according to claim 1, wherein the soft-chip platform comprises: a core engine, an IDE and a functional module manager.

The core engine is responsible for analysis and operation of the soft circuit; responsible for the logical implementation of the meta-component; the function of the universal soft chip is realized; as a communication agent of the soft chip and the function module manager; as an operating environment support for the compiled soft circuit;

the IDE includes: the editor is used for developing a soft circuit, adopting graphical programming and supporting graphic dragging; the compiler is used for checking the correctness of the soft circuit through compiling, and meanwhile, the soft chip or the component with the error can be marked by using the color, and the running code is generated after compiling; the debugger is used for debugging the soft circuit, removing faults, positioning pins, supporting nested chip debugging and meeting gradual debugging;

the function module manager is used for managing various professional function modules developed by a platform or a third party, and comprises: registering the function modules on the platform so that the user can find the function modules; function discovery, namely discovering related service routes through function codes; and the function proxy is used as a request response proxy between the core engine and the professional server.