CN112180241A - Integrated circuit simulation debugging time management system - Google Patents

Abstract

The invention discloses a management system for an integrated circuit simulation debugging machine, which comprises a starting acquisition module, a closing acquisition module, a data receiving module, an image acquisition module, a data processing module, a manual grading module, a master control module, a grading module, a data storage module and an emergency stop module, wherein the starting acquisition module is used for starting the data acquisition module; the starting acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine starts, and the closing acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine finishes; the data acquisition module is used for acquiring analog information, voltage information and current information during simulation when the integrated circuit simulates the debugging machine, and the image acquisition module is used for acquiring video image information when a user carries out the integrated circuit simulating the debugging machine. The invention can better manage the integrated circuit simulation debugging machine, protect the safety of the integrated circuit and has more functions.

Description

Integrated circuit simulation debugging time management system

Technical Field

The invention relates to the field of management systems, in particular to a management system for an integrated circuit simulation debugging machine.

Background

An integrated circuit is a microelectronic device or component. The transistor, the resistor, the capacitor, the inductor and other elements and wires required in a circuit are interconnected together by adopting a certain process, are manufactured on a small or a plurality of small semiconductor wafers or medium substrates, and are then packaged in a tube shell to form a micro structure with the required circuit function; all the elements are structurally integrated, so that the electronic elements are greatly advanced towards microminiaturization, low power consumption, intellectualization and high reliability, and an integrated circuit needs to be managed by a management system when an analog debugging machine is arranged.

The existing management system has a single management function, cannot meet the use requirements of users, and brings certain influence on the use of the management system, so that the management system for the integrated circuit simulation debugging machine is provided.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to solve current management system, administrative function is comparatively single can not satisfy user's user demand, and has brought the problem of certain influence for management system's use, provides a management system when integrated circuit simulation debugging machine.

The invention solves the technical problems through the following technical scheme that the intelligent automatic grading system comprises a starting acquisition module, a closing acquisition module, a data receiving module, an image acquisition module, a data processing module, a manual grading module, a master control module, a grading module, a data storage module and an emergency stop module;

the starting acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine starts, and the closing acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine finishes;

the data acquisition module is used for acquiring analog information, voltage information and current information during simulation of the integrated circuit simulation debugging machine, the image acquisition module is used for acquiring video image information during simulation of the integrated circuit simulation debugging machine by a user, and the data receiving module is used for receiving the analog information, the voltage information, the current information and the video image information;

the receiving simulation information, the voltage information, the current information and the video image information are all sent to a data processing module by a data receiving module, the data processing module sends the video image information and the simulation information to a manual scoring module, the manual scoring module is used for manually scoring and uploading manual scoring, and the starting time information and the ending time information are sent to a scoring module;

the data processing module processes the electric information and the current information, emergency stop information is generated when the electric information and the current information are abnormal, the emergency stop information is sent to the master control module, the master control module receives the emergency stop information, converts the emergency stop information into an emergency stop instruction and sends the emergency stop instruction to the emergency stop module, and the emergency stop module controls the integrated circuit to stop the simulation debugging machine;

the grading module is used for evaluating a final grade according to the time information at the beginning, the time information at the end and the manual grade, and the data storage module is used for storing the integrated circuit simulation debugging machine data with the highest grade.

Preferably, the voltage information process is as follows:

the method comprises the following steps: extracting voltage information, marking the voltage information as M, and continuously acquiring the voltage information M for z times at preset time intervals, wherein z is more than or equal to 5;

step two: establishing a plane rectangular coordinate system Q1 by taking the voltage value as a Y axis and the time interval as an X axis;

step three: drawing the acquired z-time voltage information M into a fold line degree on a plane rectangular coordinate system Q1;

step four: and generating voltage instability information when the included angle between the two continuous sections on the line graph and the horizontal plane is larger than a preset angle or smaller than the preset angle.

Preferably, the specific processing procedure of the current information is as follows:

the method comprises the following steps: extracting current information, marking the current information as D, and continuously acquiring current information M for z times at preset time intervals, wherein z is more than or equal to 5;

step two: establishing a plane rectangular coordinate system Q2 by taking the current value as a Y axis and the time interval as an X axis;

step three: drawing the acquired z-time current information D into a folding line degree on a plane rectangular coordinate system Q1;

step four: and generating current instability information when the included angle between the two continuous sections on the line graph and the horizontal plane is larger than a preset angle or smaller than the preset angle.

Preferably, the specific processing procedure of the emergency stop information is as follows:

the method comprises the following steps: generating emergency stop information when the current instability information is generated;

step two: generating emergency stop information when the current voltage instability information is generated;

step three: generating emergency stop information when the current information D acquired once is larger than the preset current;

step four: and generating emergency stop information when the voltage information M acquired once is greater than the preset voltage.

Preferably, the specific scoring process of the scoring module is as follows:

the method comprises the following steps: extracting start time information and end time information, marking the start time information as T1 and the end time information as T2;

step two: calculating the difference between the time information label at the end of the calculation T2 and the time information label at the start of the calculation T1 to obtain the time difference T_{Difference (D)}；

Step three: by a time difference T_{Difference (D)}Evaluating to obtain a time score Tg;

step four: when time difference T_{Difference (D)}When the time is longer than the preset time, the time score Tg is a preset value A1, and when the time difference T is larger than the preset time_{Difference (D)}When the time is within the preset time range, the time score Tg is the preset value A2, and the time difference T is_{Difference (D)}When the time is shorter than the preset time, the time score Tg is a preset value A3, and the preset value A3 is larger than the preset value A2 and is smaller than the preset value A1;

step five: extracting the artificial score, marking the artificial score as P, giving a corrected value U1 to the artificial score P in order to highlight the importance of the artificial score, giving a corrected value U2 to the time score Tg, wherein U1+ U2 is 1, and U1 is more than U2;

step six: by the formula P U1+ Tg U1 ═ Pt_Andcalculating the final score Pt_And。

preferably, the specific process of the data storage module for storing the integrated circuit analog debug machine data with the highest score is as follows: extracting the final grade Pt of all integrated circuit simulation debugging machines_Andranking the Pt according to the size, and extracting the final grade Pt with the highest ranking_Andthe corresponding data is stored data.

Compared with the prior art, the invention has the following advantages: this management system during integrated circuit simulation debugging machine, can better manage integrated circuit simulation debugging machine in-process current information and voltage information, unstable at voltage, the current is unstable, the electric current is too high, send out the police dispatch newspaper when the voltage is too high and go on and in time control integrated circuit simulation debugging machine and stop the simulation, better accident of avoiding sending in the simulation process, and handle the best data of simulating with m through grading and store and supply with the simulator and refer to, user's different user demands can be satisfied to this system, let this system be worth using widely more.

Drawings

FIG. 1 is a system block diagram of the present invention.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1, the present embodiment provides a technical solution: a management system for an integrated circuit simulation debugging machine comprises a starting acquisition module, a closing acquisition module, a data receiving module, an image acquisition module, a data processing module, a manual grading module, a master control module, a grading module, a data storage module and an emergency stop module;

the starting acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine starts, and the closing acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine finishes;

the data acquisition module is used for acquiring analog information, voltage information and current information during simulation of the integrated circuit simulation debugging machine, the image acquisition module is used for acquiring video image information during simulation of the integrated circuit simulation debugging machine by a user, and the data receiving module is used for receiving the analog information, the voltage information, the current information and the video image information;

the receiving simulation information, the voltage information, the current information and the video image information are all sent to a data processing module by a data receiving module, the data processing module sends the video image information and the simulation information to a manual scoring module, the manual scoring module is used for manually scoring and uploading manual scoring, and the starting time information and the ending time information are sent to a scoring module;

the data processing module processes the electric information and the current information, emergency stop information is generated when the electric information and the current information are abnormal, the emergency stop information is sent to the master control module, the master control module receives the emergency stop information, converts the emergency stop information into an emergency stop instruction and sends the emergency stop instruction to the emergency stop module, and the emergency stop module controls the integrated circuit to stop the simulation debugging machine;

the grading module is used for evaluating a final grade according to the time information at the beginning, the time information at the end and the manual grade, and the data storage module is used for storing the integrated circuit simulation debugging machine data with the highest grade.

The voltage information process is as follows:

the method comprises the following steps: extracting voltage information, marking the voltage information as M, and continuously acquiring the voltage information M for z times at preset time intervals, wherein z is more than or equal to 5;

step two: establishing a plane rectangular coordinate system Q1 by taking the voltage value as a Y axis and the time interval as an X axis;

step three: drawing the acquired z-time voltage information M into a fold line degree on a plane rectangular coordinate system Q1;

step four: and generating voltage instability information when the included angle between the two continuous sections on the line graph and the horizontal plane is larger than a preset angle or smaller than the preset angle.

The specific processing procedure of the current information is as follows:

the method comprises the following steps: extracting current information, marking the current information as D, and continuously acquiring current information M for z times at preset time intervals, wherein z is more than or equal to 5;

step two: establishing a plane rectangular coordinate system Q2 by taking the current value as a Y axis and the time interval as an X axis;

step three: drawing the acquired z-time current information D into a folding line degree on a plane rectangular coordinate system Q1;

step four: and generating current instability information when the included angle between the two continuous sections on the line graph and the horizontal plane is larger than a preset angle or smaller than the preset angle.

The specific processing procedure of the emergency stop information is as follows:

the method comprises the following steps: generating emergency stop information when the current instability information is generated;

step two: generating emergency stop information when the current voltage instability information is generated;

step three: generating emergency stop information when the current information D acquired once is larger than the preset current;

step four: and generating emergency stop information when the voltage information M acquired once is greater than the preset voltage.

The specific scoring process of the scoring module is as follows:

the method comprises the following steps: extracting start time information and end time information, marking the start time information as T1 and the end time information as T2;

step two: calculating the difference between the time information label at the end of the calculation T2 and the time information label at the start of the calculation T1 to obtain the time difference T_{Difference (D)}；

Step three: by a time difference T_{Difference (D)}To make an evaluationObtaining a time score Tg;

step four: when time difference T_{Difference (D)}When the time is longer than the preset time, the time score Tg is a preset value A1, and when the time difference T is larger than the preset time_{Difference (D)}When the time is within the preset time range, the time score Tg is the preset value A2, and the time difference T is_{Difference (D)}When the time is shorter than the preset time, the time score Tg is a preset value A3, and the preset value A3 is larger than the preset value A2 and is smaller than the preset value A1;

step five: extracting the artificial score, marking the artificial score as P, giving a corrected value U1 to the artificial score P in order to highlight the importance of the artificial score, giving a corrected value U2 to the time score Tg, wherein U1+ U2 is 1, and U1 is more than U2;

step six: by the formula P U1+ Tg U1 ═ Pt_Andcalculating the final score Pt_And。

the data storage module is used for storing the integrated circuit analog debugging machine data with the highest score in the following specific process: extracting the final grade Pt of all integrated circuit simulation debugging machines_Andranking the Pt according to the size, and extracting the final grade Pt with the highest ranking_Andthe corresponding data is stored data.

In summary, when the invention is used, the collection module is started for collecting the time information when the integrated circuit simulation debugging machine starts, the collection module is closed for collecting the time information when the integrated circuit simulation debugging machine finishes, the data collection module is used for collecting the simulation information when the integrated circuit simulation debugging machine finishes, the voltage information and the current information when the integrated circuit simulation debugging machine simulates, the image collection module is used for collecting the video image information when a user carries out the integrated circuit simulation debugging machine, the data receiving module is used for receiving the simulation information, the voltage information, the current information and the video image information, the received simulation information, the voltage information, the current information and the video image information are all sent to the data processing module by the data receiving module, the data processing module sends the video image information and the simulation information to the manual scoring module, the manual scoring module is used for carrying out manual scoring and uploading manual scoring, the time information at the beginning and the time information at the end are sent to a scoring module, a data processing module processes the electric information and the current information, emergency stop information is generated when the electric information and the current information are abnormal, the emergency stop information and the time information are sent to a master control module, the master control module receives the emergency stop information and converts the emergency stop information into an emergency stop instruction, the emergency stop instruction is sent to an emergency stop module, the emergency stop module controls an integrated circuit to stop an analog debugging machine, the scoring module is used for evaluating final scoring according to the time information at the beginning, the time information at the end and manual scoring, and a data storage module is used for storing the integrated circuit analog debugging machine data with the highest scoring.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (6)

1. A management system for an integrated circuit simulation debugging machine is characterized by comprising a starting acquisition module, a closing acquisition module, a data receiving module, an image acquisition module, a data processing module, a manual grading module, a master control module, a grading module, a data storage module and an emergency stop module;

the starting acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine starts, and the closing acquisition module is used for acquiring time information when the integrated circuit simulation debugging machine finishes;

the data acquisition module is used for acquiring analog information, voltage information and current information during simulation of the integrated circuit simulation debugging machine, the image acquisition module is used for acquiring video image information during simulation of the integrated circuit simulation debugging machine by a user, and the data receiving module is used for receiving the analog information, the voltage information, the current information and the video image information;

the receiving simulation information, the voltage information, the current information and the video image information are all sent to a data processing module by a data receiving module, the data processing module sends the video image information and the simulation information to a manual scoring module, the manual scoring module is used for manually scoring and uploading manual scoring, and the starting time information and the ending time information are sent to a scoring module;

the data processing module processes the electric information and the current information, emergency stop information is generated when the electric information and the current information are abnormal, the emergency stop information is sent to the master control module, the master control module receives the emergency stop information, converts the emergency stop information into an emergency stop instruction and sends the emergency stop instruction to the emergency stop module, and the emergency stop module controls the integrated circuit to stop the simulation debugging machine;

the grading module is used for evaluating a final grade according to the time information at the beginning, the time information at the end and the manual grade, and the data storage module is used for storing the integrated circuit simulation debugging machine data with the highest grade.

2. The integrated circuit analog debug machine timing management system of claim 1, wherein: the voltage information process is as follows:

the method comprises the following steps: extracting voltage information, marking the voltage information as M, and continuously acquiring the voltage information M for z times at preset time intervals, wherein z is more than or equal to 5;

step two: establishing a plane rectangular coordinate system Q1 by taking the voltage value as a Y axis and the time interval as an X axis;

step three: drawing the acquired z-time voltage information M into a fold line degree on a plane rectangular coordinate system Q1;

step four: and generating voltage instability information when the included angle between the two continuous sections on the line graph and the horizontal plane is larger than a preset angle or smaller than the preset angle.

3. The integrated circuit analog debug machine timing management system of claim 1, wherein: the specific processing procedure of the current information is as follows:

the method comprises the following steps: extracting current information, marking the current information as D, and continuously acquiring current information M for z times at preset time intervals, wherein z is more than or equal to 5;

step two: establishing a plane rectangular coordinate system Q2 by taking the current value as a Y axis and the time interval as an X axis;

step three: drawing the acquired z-time current information D into a folding line degree on a plane rectangular coordinate system Q1;

step four: and generating current instability information when the included angle between the two continuous sections on the line graph and the horizontal plane is larger than a preset angle or smaller than the preset angle.

4. An integrated circuit analog debug time management system as claimed in claims 1, 2 and 3, wherein: the specific processing procedure of the emergency stop information is as follows:

the method comprises the following steps: generating emergency stop information when the current instability information is generated;

step two: generating emergency stop information when the current voltage instability information is generated;

step three: generating emergency stop information when the current information D acquired once is larger than the preset current;

step four: and generating emergency stop information when the voltage information M acquired once is greater than the preset voltage.

5. The integrated circuit analog debug machine timing management system of claim 1, wherein: the specific scoring process of the scoring module is as follows:

the method comprises the following steps: extracting start time information and end time information, marking the start time information as T1 and the end time information as T2;

step two: calculating the difference between the time information label at the end of the calculation T2 and the time information label at the start of the calculation T1 to obtain the time difference T_{Difference (D)}；

Step three: by a time difference T_{Difference (D)}Evaluating to obtain a time score Tg;

step four: when time difference T_{Difference (D)}When the time is longer than the preset time, the time score Tg is a preset value A1, and when the time difference T is larger than the preset time_{Difference (D)}When the time is within the preset time range, the time score Tg is the preset value A2, and the time difference T is_{Difference (D)}When the time is shorter than the preset time, the time score Tg is a preset value A3, and the preset value A3 is larger than the preset value A2 and is smaller than the preset value A1;

step five: extracting the artificial score, marking the artificial score as P, giving a corrected value U1 to the artificial score P in order to highlight the importance of the artificial score, giving a corrected value U2 to the time score Tg, wherein U1+ U2 is 1, and U1 is more than U2;

step six: by the formula P U1+ Tg U1 ═ Pt_Andcalculating the final score Pt_And。

6. an integrated circuit analog debug machine time management system as claimed in claims 1 and 5, wherein: the data storage module is used for storing the integrated circuit analog debugging machine data with the highest score in the following specific process: extracting the final grade Pt of all integrated circuit simulation debugging machines_Andranking the Chinese characters according to size, and extractingHighest final score Pt_Andthe corresponding data is stored data.

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