CN116257244B - Flow code conversion system for chip manufacturing EAP system - Google Patents
Flow code conversion system for chip manufacturing EAP system Download PDFInfo
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Abstract
The invention discloses a flow code conversion system for manufacturing an EAP system by a chip, which relates to the technical field of EAP system code manufacture and is used for solving the problems that the existing manual programming has the defects of time and labor waste of developers, confusion of codes with different standards and standard class libraries, difficulty in reading and maintaining, low execution efficiency, difficulty in debugging, far difference between the codes and structures of script specification design documents, incapability of visually checking the running state of a program in a graphical mode and difficulty in communicating the program caused by a client; the invention avoids the development and implementation personnel from starting from zero to a little time-consuming and labor-consuming handwriting code, thereby improving the EAP generation efficiency; the structure of the flow chart is similar to that of the script specification design document, so that the method is easy to understand and reference; if the program runs, the current running step can be reflected in the flow chart in real time.
Description
Technical Field
The invention relates to the technical field of EAP system code making, in particular to a flow code conversion system for manufacturing an EAP system by a chip.
Background
EAP (Equipment Automation Programming) realizes the real-time monitoring of the machine stations on the production line and is an indispensable control system for factory automation.
Traditional EAP programming mainly uses a general programming language (c#, java) to implement related interface specifications and function according to Scenario specification (hereinafter referred to as Scenario) design document, but when the system scale is greatly enlarged, a great number of problems are generated, such as: when using the traditional programming language, because the use modes and habits of different people on different programming languages are different, the written codes may have different styles, and even multiple completely different code implementations can appear for a unified scenario. Thus, as project sizes expand, these codes may become quite difficult to maintain; the code implementation does not show the relation between the flows described on the scenario, so that the flow described in the scenario is very easy to see from the code reversely in many times, and in this case, when any one step needs to be changed, the whole body is likely to be pulled; an implementation version of a plurality of SECS standard function libraries. The SECS protocol can be used as a protocol standard to form a highly encapsulated library function, but in the code structure of 'autonomy' of different development engineers, each engineer realizes own SECS protocol class library and is mutually incompatible, so that the principle of high cohesion and low coupling of the whole programming is greatly destroyed, the product structure of the whole EAP is greatly destroyed, even the product structure is difficult to modify when a problem occurs, and the robustness of the system is greatly reduced; extremely high implementation costs. Because of the huge gap and difference between the scenario flow chart and the scenario specific code, EAP engineers need to take care of doing the very unfriendly conversion when in-situ implementation, so that the implementation cost and time are increased dramatically; for the scenario of the running state, the running state can be judged only by means of the log, and visual and intuitive graphical interface display is lacked, so that the problem in running is found to be difficult.
All of these problems have occurred in existing EAP systems and have had a very negative impact. In this background environment, in order to cope with and solve these problems, an idea of developing a graphical Workflow engine designer (hereinafter referred to as Workflow) has been developed;
in the prior art, the manual programming mode is adopted, so that the problems that a developer wastes time and labor, codes with different code specifications and standard class libraries are confused and difficult to read and maintain, the execution efficiency is low and difficult to debug, the structure of the codes and script specification design documents is far away, the running state of a program cannot be intuitively checked in a graphical mode, and a client cannot understand the program, so that communication is difficult are solved.
Disclosure of Invention
The invention aims to solve the problems that the existing manual programming has the defects that developers waste time and labor, different codes of code specifications and standard class libraries are confused and difficult to read and maintain, the execution efficiency is low and difficult to debug, the structure of codes and script specification design documents is far away, and the running state of a program cannot be intuitively checked in a graphical mode and the communication is difficult to be caused by the fact that a client cannot understand the program.
The aim of the invention can be achieved by the following technical scheme: a flow code conversion system for an EAP system for chip manufacture comprises a flow chart drawing module, a code conversion module, an assembly class library and a test running module; the flow chart drawing module is used for a developer to draw a flow chart which accords with the EAP script specification design document through a flow chart drawing device, wherein all elements in the flow chart support customization and development of plug-in components (controls), and different elements draw connecting lines according to the script specification design document; transmitting the flow chart to a code conversion module;
the code conversion module is used for converting the flow chart into a data structure, transmitting the data structure to the analyzer, analyzing and checking the data structure through the analyzer, matching the data structure with script codes preset in an assembly class library after the data structure is checked successfully, embedding the codes into a host program needing to use the script when the codes are matched, performing corresponding data configuration to obtain EAP program script codes, and transmitting the EAP program script codes to the test operation module; when the code corresponding to the data structure is not matched, generating a code demand instruction of an element corresponding to the data structure and sending the code demand instruction to an instruction processing module;
the test running module receives the EAP program script code and then performs debugging running test on the EAP program script code, and when the debugging running test is successful, the EAP program script code is fed back to a developer; when the debugging operation test fails, a redrawing prompt instruction and the reason of the operation test failure are generated and fed back to a developer, and after the developer receives the redrawing prompt instruction and the reason of the operation test failure, the developer modifies the flow chart through the flow chart renderer and sends the modified flow chart to the code conversion module.
As a preferred implementation mode of the invention, the code conversion module is also used for receiving the EAP program script code, analyzing the EAP program script code and matching with the script code preset in the assembly class library so as to obtain the element corresponding to the EAP program script code and the connecting line between the elements, generating a flow chart according to the element and the connecting line between the elements and feeding back.
As a preferred embodiment of the present invention, the instruction processing module is configured to receive and process a code demand instruction of an element, and the specific processing procedure is:
analyzing the code demand instruction of the element to obtain the demand content of the element; acquiring personnel information corresponding to the coding personnel stored in the data storage module, sending a demand confirmation request to a computer terminal of the coding personnel to acquire a confirmation result of the coding personnel, and acquiring personnel indexes of the coding personnel when the confirmation result is permission for coding confirmation, wherein the personnel indexes comprise an efficiency connection base value, an efficiency coding base value and a quality coding base value; processing the personnel index to obtain a target position value, and transmitting the required content of the element to a computer terminal corresponding to the coding personnel with the maximum target position value; coding personnel write codes corresponding to element demand contents through a computer terminal, the written codes of elements are sent to a test operation module, the test operation module receives the codes of the elements and then performs operation test, the test is successfully sent to an assembly class library for storage, and when the operation test fails, a test failure instruction is generated and sent to the computer terminal of the corresponding coding personnel; when the coding personnel is initially registered, the joint efficiency base value, the coding efficiency base value and the coding quality base value are all 10.
As a preferred embodiment of the present invention, the processing procedure for the personnel index specifically includes: extracting values of a joint effect base value, a braiding effect base value and a braiding quality base value, drawing circles on three planes of different layers to obtain three circles, overlapping the three circles on the same vertical line, enabling the circles in the middle to be equal to the distances between the circles in the vertical directions of the upper and lower circles, connecting the three circular edges, constructing a circular table body, calculating the area of the circular table body, extracting the area value, and marking the area value as a standard position value.
As a preferred embodiment of the present invention, the instruction processing module further includes a receiving and collecting unit and an effect receiving and processing unit; the receiving and collecting unit is used for collecting the first time when the encoder receives the demand confirmation request, the second time when the confirmation result is fed back and the times when the confirmation result is not fed back, and sending the times to the efficiency receiving and processing unit; the joint effect processing unit is used for performing joint effect basic value analysis on coding personnel, and the specific analysis process is as follows: acquiring times of all time I, time II and non-feedback confirmation results of the coding personnel; sequencing the first time and the second time according to the time sequence, calculating the time difference between the first time and the second time to obtain the confirmation time, substituting all the values of the confirmation time into the time column corresponding to the confirmation time in the bar chart according to the corresponding time sequence, and subtracting the height of the lowest time from the height of the highest time column to obtain the height difference; comparing two adjacent long columns, when the front long column is higher than the rear long column, increasing the front low frequency once, and calculating the height difference of the two long columns to obtain a high-drop value; when the front long column is lower than the rear long column, the rear high frequency is increased once, and the height difference of the two long columns is calculated to obtain low increment;
extracting values corresponding to the high-low difference value, the front low frequency, the high-low value, the rear high frequency and the low value and marking the values as GD1, QD2, GJ3, HG4 and DZ5 respectively; setting the weight ratio corresponding to the high-low difference value, the front low frequency, the high-low value, the rear high frequency and the low increment as qs1, qs2, qs3, qs4 and qs5; substituting a preset formulaObtaining the joint efficiency value JX1 of the encoding personnel.
As a preferred implementation manner of the invention, the instruction processing module further comprises a time acquisition unit and an efficiency editing processing unit, wherein the time acquisition unit is used for acquiring a time III when an encoder receives the demand content of the element and a time IV when a code of the written element is sent to the test operation module and sending the code to the efficiency editing processing unit; the coding processing unit is used for carrying out coding basic value analysis on coding personnel, and the specific analysis process is as follows: calculating the time length difference value of the third time and the fourth time to obtain a single code of the coding personnelCounting the number of all single coding time lengths of a coder to obtain a total coded number; comparing the single-time coding time length with a preset time length threshold, when the single-time coding time length is smaller than or equal to the preset time length threshold, increasing the total time in advance once, when the single-time coding time length is larger than the preset time length threshold, increasing the total time out once, calculating the time length difference between the single-time coding time length and the preset time length threshold to obtain the time out time length, and summing all the time out time lengths to obtain the total time out time length; extracting the numerical values of total number, total number of advances, total number of overtime and total overtime duration, and marking the numerical values as TG1, TG2, TG3 and TG4 respectively; substituting a preset formulaObtaining an encoding efficiency base value JX2 of an encoding person; wherein e1, e2 and e3 are preset weight duty ratios.
As a preferred implementation manner of the invention, the instruction processing module further comprises a frequency acquisition unit and a texture processing unit, wherein the frequency acquisition module is used for acquiring the total frequency of sending codes sent by coding personnel to the test operation module and the total frequency of receiving test failure instructions and transmitting the total frequency to the texture processing unit; the coding processing unit is used for carrying out coding base value analysis on coding personnel, and the specific analysis process is as follows: extracting the numerical values of the total number of transmission and the total number of failure and marking as C11 and C12, and substituting the numerical values into a formulaAnd obtaining a coder matrix value JX3 of the coder, wherein p1 and p2 are preset weight duty ratios.
Compared with the prior art, the invention has the beneficial effects that:
1. the invention uses a flow chart drawing device to draw a flow chart which accords with the EAP script specification design document, converts the flow chart into a specific data structure description, and transmits the structure to an analyzer, the analyzer analyzes the structure and checks the data, if the check is successful, the structure is converted into a corresponding code, the generated code is finally embedded into a host program which needs to use the script, and the development of the whole EAP program script is completed; a program for reversely generating the whole flow chart from the script written by the developer and conforming to a certain specification can be constructed, so that the conversion from codes to the flow chart is completed and a circulation structure in the upper chart is closed; so as to avoid the development and implementation personnel from starting from zero to a little time and labor-consuming handwriting code, and further improve the EAP generation efficiency;
2. the automatically generated codes meet a certain standard and specification, the called basic class library cannot be repeatedly developed, the quality of code programs with lower writing efficiency by some developers is prevented from being improved and the code programs are relatively easy to debug because of the relative standard of the class library, and the structure of the flow chart is similar to that of a script specification design document, so that the code programs are easy to understand and reference; if the program runs, the current running step can be reflected in the flow chart in real time; the graphical manner represents the running of the program.
Drawings
The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.
FIG. 1 is a block diagram of the overall principle of the invention;
FIG. 2 is a schematic block diagram of an instruction processing module according to the present invention;
FIG. 3 is a schematic view of the structure of the truncated cone of the present invention;
fig. 4 is a schematic representation of the present invention.
Detailed Description
The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, 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.
Referring to fig. 1, a flow code conversion system for an EAP system for chip manufacturing includes a flow chart drawing module, a code conversion module, an assembly class library, a test running module, an instruction processing module, and a data storage module;
a developer draws a flow chart conforming to an EAP script specification design document through a flow chart drawing device, wherein all elements in the flow chart support customization and development of plugins (controls), and different elements draw connecting lines according to the script specification design document; the flow chart drawing module transmits the flow chart to the code conversion module;
the code conversion module converts the flow chart into a data structure and transmits the data structure to the analyzer, the analyzer analyzes and checks the data structure, after the data structure is checked successfully, the data structure is matched with script codes preset in an assembly class library, when the corresponding codes are matched, the codes are embedded into a host program needing to use the script, corresponding data configuration is carried out, EAP program script codes are obtained, and then the EAP program script codes are transmitted to the test operation module; when the code corresponding to the data structure is not matched, generating a code demand instruction of an element corresponding to the data structure and sending the code demand instruction to an instruction processing module; the code conversion module can also receive EAP program script codes, analyze the EAP program script codes and match with script codes preset in the assembly class library to obtain elements corresponding to the EAP program script codes and connecting lines among the elements, and generate a flow chart according to the elements and the connecting lines among the elements;
the test running module receives the EAP program script code and then performs debugging running test on the EAP program script code, and when the debugging running test is successful, the EAP program script code is fed back to a developer; when debugging operation test fails, a redrawing prompt instruction and a reason of the operation test failure are generated and fed back to a developer, and after the developer receives the redrawing prompt instruction and the reason of the operation test failure, the developer modifies a flow chart through a flow chart renderer and sends the modified flow chart to a code conversion module;
the instruction processing module receives and processes the code demand instruction of the element, and the specific processing process is as follows:
analyzing the code demand instruction of the element to obtain the demand content of the element; acquiring personnel information corresponding to the coding personnel stored in the data storage module, sending a demand confirmation request to a computer terminal of the coding personnel to acquire a confirmation result of the coding personnel, and acquiring personnel indexes of the coding personnel when the confirmation result is permission for coding confirmation, wherein the personnel indexes comprise an efficiency connection base value, an efficiency coding base value and a quality coding base value; processing the personnel index to obtain a target value, specifically: extracting the values of the grafting effect base value, the editing effect base value and the editing quality base value and taking the values of the grafting effect base value, the editing effect base value and the editing quality base value as radiuses;
referring to fig. 3, three circles are drawn on three planes of different levels to obtain three circles, the circles of the three circles are overlapped on the same vertical line, the distances between the circles in the middle and the vertical directions of the circles above and below are equal, the three circular edges are connected and a circular truncated cone is constructed, the area of the circular truncated cone is calculated, the numerical value of the area is extracted, and the numerical value is marked as a standard value;
the required content of the element is sent to a computer terminal corresponding to the coding person with the maximum target position value; coding personnel write codes corresponding to element demand contents through a computer terminal, the written codes of elements are sent to a test operation module, the test operation module receives the codes of the elements and then performs operation test, the test is successfully sent to an assembly class library for storage, and when the operation test fails, a test failure instruction is generated and sent to the computer terminal of the corresponding coding personnel; when the coding personnel is initially registered, the value of the joint efficiency base value, the coding efficiency base value and the coding quality base value is 10;
according to the method, the instruction processing module is used for processing the code demand instruction of the element, so that corresponding coding personnel can be reasonably selected to write codes, and the efficiency of element code generation is improved;
referring to fig. 2, the instruction processing module further includes a receiving and collecting unit, an efficiency receiving and processing unit, a time collecting unit, an efficiency editing and processing unit, a frequency collecting unit and a quality editing and processing unit;
the receiving and collecting unit collects the times of the first time when the encoder receives the demand confirmation request, the second time when the confirmation result is fed back and the non-feedback confirmation result and sends the times to the efficiency receiving and processing unit;
the joint effect processing unit analyzes the joint effect basic value of the coding personnel, and the specific analysis process is as follows: acquiring times of all time I, time II and non-feedback confirmation results of the coding personnel; sequencing the first time and the second time according to the time sequence, and calculating the time difference between the first time and the second time to obtain the confirmed time;
referring to fig. 4, all the values of the confirmation time length are substituted into the time length column corresponding to the confirmation time length in the bar chart according to the corresponding time, and the height of the highest time length column is subtracted by the height of the lowest time length to obtain a height difference value; comparing two adjacent long columns, when the front long column is higher than the rear long column, increasing the front low frequency once, and calculating the height difference of the two long columns to obtain a high-drop value; when the front long column is lower than the rear long column, the rear high frequency is increased once, and the height difference of the two long columns is calculated to obtain low increment;
extracting values corresponding to the high-low difference value, the front low frequency, the high-low value, the rear high frequency and the low value and marking the values as GD1, QD2, GJ3, HG4 and DZ5 respectively; setting the weight ratio corresponding to the high-low difference value, the front low frequency, the high-low value, the rear high frequency and the low increment as qs1, qs2, qs3, qs4 and qs5; substituting a preset formulaObtaining the joint efficiency value JX1 of the encoding personnel.
The time acquisition unit acquires the time III when the encoder receives the demand content of the element, and the time IV when the encoded element code is sent to the test operation module and sends the encoded element code to the efficiency encoding processing unit;
the coding efficiency processing unit analyzes coding efficiency basic values of coding personnel, and the specific analysis process is as follows: calculating a time length difference value of the third time and the fourth time to obtain single-time coding time lengths of coding personnel, and counting the number of all the single-time coding time lengths of the coding personnel to obtain a total coding number; comparing the single-time coding time length with a preset time length threshold, when the single-time coding time length is smaller than or equal to the preset time length threshold, increasing the total number of times in advance once, and when the single-time coding time length is smaller than or equal to the preset time length thresholdWhen the secondary coding time length is greater than a preset time length threshold value, the total time-out times are increased once, the time length difference between the single coding time length and the preset time length threshold value is calculated to obtain the time-out time length, and all the time-out time lengths are summed to obtain the total time-out time length; extracting the numerical values of total number, total number of advances, total number of overtime and total overtime duration, and marking the numerical values as TG1, TG2, TG3 and TG4 respectively; substituting a preset formulaObtaining an encoding efficiency base value JX2 of an encoding person; wherein e1, e2 and e3 are preset weight duty ratios;
the frequency acquisition module acquires the total frequency of sending codes sent by the coding personnel to the test operation module and the total frequency of failure of receiving test failure instructions, and transmits the total frequency to the coding processing unit;
the coding processing unit analyzes coding basic values of coding personnel, and the specific analysis process is as follows: extracting the numerical values of the total number of transmission and the total number of failure and marking as C11 and C12, and substituting the numerical values into a formulaObtaining a coder matrix value JX3 of a coder, wherein p1 and p2 are preset weight duty ratios;
the data storage module is also internally provided with a registration unit which is used for compiling personnel information submitted by personnel to register and sending the personnel information which is successfully registered to the data storage module for storage, wherein the personnel information comprises information such as communication numbers, names, identity card numbers, ages, job entering duration and the like of the corresponding computer terminals of the compiling personnel;
the invention avoids the development and implementation personnel from starting from zero to a little time-consuming and labor-consuming handwriting code, thereby improving the EAP generation efficiency; the automatically generated codes meet a certain standard and specification, the called basic class library cannot be repeatedly developed, the quality of code programs written by some developers under some efficiency is prevented from being improved and the code programs are relatively easy to debug because of the relative standard of the class library, and the structure of the flow chart is similar to that of the script specification design document and is easy to understand and reference; if the program runs, the current running step can be reflected in the flow chart in real time; the running of the program is expressed in a graphic mode, so that the customer can more easily understand and communicate that the final output is the code, and if development is required to be customized, the code is directly modified, and the flexibility is greatly improved; the basic class library is configurable, so that the expansibility of the program is greatly improved; because of the self-defined code generation mode, host machine programs and environments such as (e.g. c#, java, c, c++, etc.) with different targets can be easily realized. Since the generated program can be in a text structure, the version control is easy to be carried out by combining the modern operation and maintenance technology;
when the invention is used, firstly, a flow chart which accords with the EAP script specification design document is drawn by using a flow chart drawing device, all elements in the flow chart support the customization and development of plug-in units (controls), and the connection lines among different elements can be drawn according to the script specification design document. This map is then converted into a specific data structure (uijson) description and this structure is passed to the analyzer, which analyzes the structure and checks the data. If the verification is successful, the structure is converted into a corresponding code (the code formalism is generated according to the drawn flow chart). Finally, the generated codes are embedded into a host program which needs to use the script, and corresponding data configuration is carried out, so that the development of the whole EAP program script is completed. Finally, if the whole flow is reversed, a program for reversely generating the whole flow chart from the script written by the developer and meeting a certain specification can be naturally constructed, so that the conversion from codes to the flow chart is completed, and the loop structure in the upper chart is closed.
The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.
Claims (6)
1. A flow code conversion system for an EAP system for chip manufacture comprises a flow chart drawing module, a code conversion module, an assembly class library and a test running module; the system is characterized in that the flow chart drawing module is used for a developer to draw a flow chart which accords with the EAP script specification design document through a flow chart drawing device, and the flow chart is transmitted to the code conversion module;
the code conversion module is used for converting the flow chart into a data structure, transmitting the data structure to the analyzer, analyzing and checking the data structure through the analyzer, matching the data structure with script codes preset in an assembly class library after the data structure is checked successfully, embedding the codes into a host program needing script of the script when the codes are matched, performing corresponding data configuration to obtain EAP program script codes, and transmitting the EAP program script codes to the test operation module; when the code corresponding to the data structure is not matched, generating a code demand instruction of an element corresponding to the data structure and sending the code demand instruction to an instruction processing module;
the test running module receives the EAP program script code and then performs debugging running test on the EAP program script code, and when the debugging running test is successful, the EAP program script code is fed back to a developer; when debugging operation test fails, a redrawing prompt instruction and a reason of the operation test failure are generated and fed back to a developer, and after the developer receives the redrawing prompt instruction and the reason of the operation test failure, the developer modifies a flow chart through a flow chart renderer and sends the modified flow chart to a code conversion module;
the instruction processing module is used for receiving and processing the code demand instruction of the element, and the specific processing process is as follows:
analyzing the code demand instruction of the element to obtain the demand content of the element; acquiring personnel information corresponding to the coding personnel stored in the data storage module, sending a demand confirmation request to a computer terminal of the coding personnel to acquire a confirmation result of the coding personnel, and acquiring personnel indexes of the coding personnel when the confirmation result is permission for coding confirmation, wherein the personnel indexes comprise an efficiency connection base value, an efficiency coding base value and a quality coding base value; processing the personnel index to obtain a target position value, and transmitting the required content of the element to a computer terminal corresponding to the coding personnel with the maximum target position value; coding personnel write codes corresponding to element requirement contents through a computer terminal, the written codes of the elements are sent to a test operation module, the test operation module receives the codes of the elements and then performs operation test, the test is successfully sent to an assembly class library for storage, and when the operation test fails, a test failure instruction is generated and sent to the computer terminal of the corresponding coding personnel.
2. The system of claim 1, wherein the code conversion module is further configured to receive an EAP program script code, parse the EAP program script code and match with scenario codes preset in the assembly class library, so as to obtain elements corresponding to the EAP program script code and connection lines between the elements, and generate a flowchart and feed back according to the elements and the connection lines between the elements.
3. A process code conversion system for an EAP system for chip manufacturing as set forth in claim 1, wherein said processing of personnel metrics is specifically: extracting values of a joint effect base value, a braiding effect base value and a braiding quality base value, drawing circles on three planes of different layers to obtain three circles, overlapping the three circles on the same vertical line, enabling the circles in the middle to be equal to the distances between the circles in the vertical directions of the upper and lower circles, connecting the three circular edges, constructing a circular table body, calculating the area of the circular table body, extracting the area value, and marking the area value as a standard position value.
4. The flow code conversion system for an EAP system for chip manufacturing as set forth in claim 1, wherein said instruction processing module further comprises a reception acquisition unit and an efficiency-enhancement processing unit; the receiving and collecting unit is used for collecting the first time when the encoder receives the demand confirmation request, the second time when the confirmation result is fed back and the times when the confirmation result is not fed back, and sending the times to the efficiency receiving and processing unit; the joint effect processing unit is used for performing joint effect basic value analysis on coding personnel, and the specific analysis process is as follows: acquiring times of all time I, time II and non-feedback confirmation results of the coding personnel; sequencing the first time and the second time according to the time sequence, calculating the time difference between the first time and the second time to obtain the confirmation time, substituting all the values of the confirmation time into the time column corresponding to the confirmation time in the bar chart according to the corresponding time sequence, and subtracting the height of the lowest time from the height of the highest time column to obtain the height difference; comparing two adjacent long columns, when the front long column is higher than the rear long column, increasing the front low frequency once, and calculating the height difference of the two long columns to obtain a high-drop value; when the front long column is lower than the rear long column, the rear high frequency is increased once, and the height difference of the two long columns is calculated to obtain low increment; and extracting the values corresponding to the high-low difference value, the front low frequency, the high-low value, the rear high frequency and the low increment, and processing to obtain the joint efficiency base value of the encoder.
5. The system according to claim 4, wherein the instruction processing module further comprises a time acquisition unit and an efficiency processing unit, the time acquisition unit is used for acquiring a time III when the encoder receives the required content of the element and a time IV when the encoded element code is sent to the test running module and sending the encoded element code to the efficiency processing unit; the coding processing unit is used for carrying out coding basic value analysis on coding personnel, and the specific analysis process is as follows: calculating a time length difference value of the third time and the fourth time to obtain single-time coding time lengths of coding personnel, and counting the number of all the single-time coding time lengths of the coding personnel to obtain a total coding number; comparing the single-time coding time length with a preset time length threshold, when the single-time coding time length is smaller than or equal to the preset time length threshold, increasing the total time in advance once, when the single-time coding time length is larger than the preset time length threshold, increasing the total time out once, calculating the time length difference between the single-time coding time length and the preset time length threshold to obtain the time out time length, and summing all the time out time lengths to obtain the total time out time length; and extracting the numerical values of the total number, the total number of advances, the total time out and the total time out duration, and analyzing to obtain the coding efficiency base value of the coding personnel.
6. The system according to claim 5, wherein the instruction processing module further comprises a frequency acquisition unit and a texture processing unit, the frequency acquisition unit is used for acquiring the total number of times the code personnel send codes to the test operation module and the total number of times of failure of receiving the test failure instruction, and transmitting the total number of times to the texture processing unit; the coding processing unit is used for carrying out coding base value analysis on coding personnel, and the specific analysis process is as follows: and extracting the numerical values of the total number of transmission and the total number of failure and analyzing to obtain the coding base value of the coding personnel.
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2757466A1 (en) * | 2013-01-17 | 2014-07-23 | Generative Software GmbH | A computer implemented method for generating computer program code |
WO2016193636A1 (en) * | 2015-06-04 | 2016-12-08 | Overkiz | Methods for generating a conditional software code module, and method for controlling at least one home automation system for a building |
CN107357942A (en) * | 2017-09-04 | 2017-11-17 | 山东达创网络科技股份有限公司 | A kind of source code auxiliary Core Generator and its generation method |
CN108647028A (en) * | 2018-05-09 | 2018-10-12 | 广州腾讯科技有限公司 | Application information processing method and device |
CN109213091A (en) * | 2018-06-27 | 2019-01-15 | 中国电子科技集团公司第五十五研究所 | A kind of semiconductor chip process equipment method for monitoring state based on document analysis |
CN111736813A (en) * | 2020-06-24 | 2020-10-02 | 深圳前海微众银行股份有限公司 | JPA code generation method and device, terminal equipment and storage medium |
CN113591422A (en) * | 2021-08-03 | 2021-11-02 | 眸芯科技(上海)有限公司 | System for generating test case flow information in chip verification and application |
CN114048641A (en) * | 2022-01-13 | 2022-02-15 | 北京中电普华信息技术有限公司 | Design method and device of model in power marketing field |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
SE521753C2 (en) * | 2002-02-08 | 2003-12-02 | Xelerated Ab | Procedures and systems for meeting real-time requirements for a data processor |
US20040268336A1 (en) * | 2003-06-30 | 2004-12-30 | Chen-Jen Lu | System and method for equipment automation program refresh |
US20120102458A1 (en) * | 2010-10-22 | 2012-04-26 | Microsoft Corporation | Generating documentation from tests |
US8954926B2 (en) * | 2012-03-05 | 2015-02-10 | Microsoft Corporation | Code coverage detection with scriptable language unmodified source |
US10417314B2 (en) * | 2012-06-14 | 2019-09-17 | Open Text Sa Ulc | Systems and methods of a script generation engine |
-
2022
- 2022-09-06 CN CN202211095474.XA patent/CN116257244B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2757466A1 (en) * | 2013-01-17 | 2014-07-23 | Generative Software GmbH | A computer implemented method for generating computer program code |
WO2016193636A1 (en) * | 2015-06-04 | 2016-12-08 | Overkiz | Methods for generating a conditional software code module, and method for controlling at least one home automation system for a building |
CN107357942A (en) * | 2017-09-04 | 2017-11-17 | 山东达创网络科技股份有限公司 | A kind of source code auxiliary Core Generator and its generation method |
CN108647028A (en) * | 2018-05-09 | 2018-10-12 | 广州腾讯科技有限公司 | Application information processing method and device |
CN109213091A (en) * | 2018-06-27 | 2019-01-15 | 中国电子科技集团公司第五十五研究所 | A kind of semiconductor chip process equipment method for monitoring state based on document analysis |
CN111736813A (en) * | 2020-06-24 | 2020-10-02 | 深圳前海微众银行股份有限公司 | JPA code generation method and device, terminal equipment and storage medium |
CN113591422A (en) * | 2021-08-03 | 2021-11-02 | 眸芯科技(上海)有限公司 | System for generating test case flow information in chip verification and application |
CN114048641A (en) * | 2022-01-13 | 2022-02-15 | 北京中电普华信息技术有限公司 | Design method and device of model in power marketing field |
Non-Patent Citations (1)
Title |
---|
刘旭东 ; 戴翔 ; .基于模型的快速原型伺服控制系统的研究与实践.航空精密制造技术.2019,(第02期),全文. * |
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