KR101192556B1 - Method for design verification system of digital circuits and the verification system thereof - Google Patents

Abstract

The present invention comprises a first step of analyzing a digital circuit card to verify a digital circuit; A second step of preparing a test program of a digital test apparatus included in an automatic test apparatus for data communication with the digital circuit card; A third step of creating a circuit diagram of a test interface device connecting the automatic test equipment and the digital circuit card and extracting a netlist; A fourth step of preparing a simulation model of the test interface device using the netlist; And a fifth step of verifying a circuit diagram of the test interface device and the test program by performing an integrated simulation using the digital circuit card, the simulation model, and the test program. A method and a verification system thereof, according to the present invention, improve the accuracy and reliability of the verification system and reduce design errors.

Description

TECHNICAL FOR DESIGN VERIFICATION SYSTEM OF DIGITAL CIRCUITS AND THE VERIFICATION SYSTEM THEREOF

The present invention relates to a method for designing a digital circuit verification system and a verification system, and more particularly, to a method for designing a digital circuit verification system including an automatic test apparatus and a test interface device for testing avionics equipment having a digital data communication function. And a verification system thereof.

Conventionally, in order to test the communication protocol between the digital circuit card and the digital test device of the automatic test equipment, the digital data communication is simulated using the digital circuit card simulation model and the digital test device simulation model, and the test program to be used in the digital test device. Was developed and designed.

In order to design a test interface device that physically connects the digital circuit card and the automatic test equipment, a circuit diagram of the test interface device was prepared based on the test requirements of the digital circuit card, and the circuit diagram of the created automatic test equipment and the test interface device was verified. In order to do this, several circuit diagrams were printed and the connection lines of the circuit diagrams were checked with human hands and eyes.

 Existing methods for verifying circuit diagrams as described above have limitations in verifying with human eyes and hands when the number of connecting lines increases, and it is difficult to expect accuracy and reliability because mistakes can be made.

In addition, even when a design error occurs in the manufactured test interface device, it is difficult to detect or debug a design error by the existing circuit diagram verification method.

In addition, even when developing a test program for a digital test apparatus, the digital data communication was simulated using only the digital circuit card and the digital test apparatus without the simulation model of the test interface apparatus. There was a problem that design errors could occur in the test program due to the exclusion of simulation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and prevents design errors due to signal delay of the test interface device, facilitates the detection and debugging of design errors, and improves accuracy and reliability. And its verification system.

In order to solve the above problems, the present invention comprises the steps of (a) analyzing the digital circuit card to verify the digital circuit; (b) creating a test program of a digital test apparatus included in an automatic test equipment for testing the digital circuit card by performing data communication with the digital circuit card; And (c) verifying the test program by simultaneously operating a test program of the digital circuit card and the digital test apparatus to perform a test on the digital circuit card. A method for designing a digital circuit verification system comprising a step, wherein a circuit diagram of a test interface device for connecting the automatic test equipment and the digital circuit card is prepared between step (b) and step (c). Extracting a netlist; And generating a simulation model for the test interface device using the netlist. In addition, the step (c), the operation of the simulation circuit for the test interface device at the same time, the operation for the test program of the digital circuit card and the digital test device, to perform the test on the digital circuit card The present invention provides a method for designing a digital circuit verification system, wherein the test interface device is verified together with the test program.

Here, after the step (c), manufacturing the actual test interface device based on the circuit diagram of the test interface device verified through the integrated simulation; And conducting an integrated test by actually connecting the test interface device manufactured above to the digital circuit card and the digital test device.

Here, in the step (c), if a problem occurs in the verification through the integrated simulation, it may be characterized by performing the integrated simulation again by modifying the circuit diagram or the test program of the test interface device.

In this case, when a problem occurs in the integrated test, the test program may be debugged or the test program and the test interface device may be modified by comparing with the data of the integrated simulation.

The present invention also provides a digital circuit card including an IC chip, a memory, and a physical interface; Automatic test equipment equipped with a digital test device for testing the function of the digital circuit card; And a test interface device for connecting the digital circuit card and the automatic test equipment, wherein the test circuit device includes: a test interface of the digital circuit card and the digital test device; Simultaneously operating the simulation model for the test interface device to provide a digital circuit verification system, characterized in that to perform the verification of the test interface device with the test program.

Here, the simulation model of the test interface device may be created using a netlist extracted during the circuit diagram preparation process of the test interface device.

Here, the digital circuit card, the digital test device and the test interface device is actually connected to perform an integrated test, and if a problem occurs in the integrated test, the test program is debugged or compared with the data of the integrated simulation or the test program And modifying the test interface device.

According to the present invention, since the test interface device is manufactured by a circuit diagram verified through integrated simulation, accuracy and reliability are improved, and even a test program reflects simulation by a signal delay of the test interface device. This can reduce errors.

1 is a flowchart of a method for designing a digital circuit verification system according to the present invention;
2 is a block diagram of a digital circuit verification system according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may properly define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible. Here, like reference numerals in the drawings denote like elements.

1 is a flowchart illustrating a method for designing a digital circuit verification system according to the present invention, and FIG. 2 is a diagram illustrating a configuration of a digital circuit verification system according to the present invention.

As shown in FIG. 1, in the method of designing a digital circuit verification system according to the present invention, a first step (S10) of analyzing a digital circuit card 300, a test program of a digital test instrument (Digital Test Instrument) 110 is prepared. The second step (s20) to perform, the circuit diagram of the test interface device 200 and the third step (s30) to extract the net list (Net list), the fourth step to create a simulation model of the test interface device 200 and a fifth step S50 of verifying the circuit diagram of the test interface device 200 and the test program by performing integrated simulation (s40).

The first step (s10) is a step of analyzing the digital circuit card 300 to verify the digital circuit, in this step by analyzing the main functions of the digital circuit card 300, the digital circuit card 300 Allows you to select the equipment you need.

Specifically, the first step (s10) may include a step (s11) of analyzing the test requirements of the digital circuit card 300 and a step (s12) of analyzing the interface and performance of the digital circuit card 300.

Analyzing the test requirements of the digital circuit card 300 (s11), the measurement equipment or digital test device to be installed in the automatic test equipment 100 used to test the function of the digital circuit card 300 (Digital Test Instrument) As a step of analyzing the test requirements to select the (110), it is the basis for creating a test program of the digital test instrument (Digital Test Instrument) (110). Looking through the embodiment of the present invention, as shown in Figure 2 is used for a digital test instrument (Digital Test Instrument) 110 to test the data read / write function of the memory of the digital circuit card 300, the digital circuit In order to supply DC power to the card 300, a DC power supply is used.

On the other hand, the step of analyzing the interface and the performance of the digital circuit card 300 (s12), the digital protocol for the data communication between the function of the digital circuit card 300 and the digital circuit card 300 and the other circuit card, Analyze and understand the physical interface such as the shape of the connector, the number of pins, the signal range, and the memory, IC chip, and power supply constituting the digital circuit card 300. It is used to create a schematic of 200 and to extract a net list.

The second step (s20) is a step of preparing a test program of the digital test instrument (Digital Test Instrument) 110 included in the automatic test equipment 100, by data communication with the digital circuit card 300, In this step, a test program operated by a digital test instrument 110 for testing the digital circuit card 300 is prepared. The test program can be written and designed in a programming language using Teradyne's LASAR simulation software.

The third step (s30) is a step of preparing a circuit diagram of the test interface device 200 to connect the automatic test equipment 100 and the digital circuit card 300 and extracting a net list. One of the functions of a circuit diagram preparation tool for creating a circuit diagram of the test interface device 200 based on an analysis result such as an interface or a performance of the digital circuit card 300 in the first step (s10). By using the net list extraction function, a net list containing connection information between circuit elements is extracted.

The fourth step (s40) is a step of preparing a simulation model of the test interface device 200, wherein a simulation model is prepared using the net list. If the test interface device 200 includes components such as a switch, an IC chip, a resistor, and a capacitor, a simulation model is described for each component for simulation, and a signal by a signal line in the simulation model for more accurate simulation. Delay characteristics can also be described.

The fifth step (s50) is a circuit diagram of the test interface device 200 by performing an integrated simulation using a simulation model of the digital circuit card 300 and the test interface device 200 and the test program. As a step of verifying the test program, by simultaneously operating the simulation program for the test program and the test interface device 200 of the digital circuit card 300 and the digital test instrument (Digital Test Instrument) 110, the digital circuit card 300 Perform an integrated simulation to test the By performing the integrated simulation as described above, errors or problems with the circuit diagram of the test interface device 200, that is, the simulation model of the test interface device 200 and the test program of the digital test device 110 are verified.

Therefore, the signal delay of the test interface device 200 by simulating using only the simulation models of the digital circuit card 300 and the digital test instrument 110 without the simulation model of the test interface device 200 in the prior art. The problem of design error caused by the present invention can be solved through the present invention.

For the integrated simulation as described above, not only the test interface device 200 but also a simulation model of the digital circuit card 300 should be prepared, and through such integrated simulation, the test program of the digital test instrument 110 is provided. This operation can be verified integrally whether the signal line and the connector pin of the test interface device 200 is properly connected.

If the verification does not pass due to an error or the like during the integrated simulation, the integrated simulation is performed again by modifying the circuit diagram of the test interface device 200 or the test program of the digital test instrument 110. can do. Referring to FIG. 1, when an error occurs in the circuit diagram of the test interface device 200 and the verification does not pass, the third step (s30), the fourth step (s40), and the fifth step (s50). If the test program does not pass the verification because the problem occurs in the second step (s20) and the fifth step (s50) to perform again, the circuit diagram of the test interface device 200 If a problem occurs in both the and the test program, the second step (s30) to the fifth step (s50) are all performed again.

If no problem occurs in the integrated simulation process and passes the verification process, the sixth step (s60) of manufacturing the actual test interface device 200 and the test interface device 200 produced above are actually the digital circuits. The seventh step s70 of connecting the card 300 and the digital test instrument 110 to perform an integrated test may be performed.

Here, the sixth step (s60) is a step of manufacturing the actual test interface device 200 on the basis of the circuit diagram of the test interface device 200 verified through the integrated simulation, helping to modify and debug the hardware For this purpose, the main signal lines used for the power of the test interface device 200, etc. are preferably manufactured by color or signal name tag. In addition, parallel data signal lines should be manufactured to have the same length of each signal line in order to achieve the same data signal arrival between the signal lines, and high frequency signal lines are sensitive to external noise, so it is preferable to use coaxial lines or twisted lines.

In the seventh step s70, an integrated test is performed by connecting the actually manufactured test interface device 200, the digital circuit card 300, and the digital test instrument 110. By connecting the actual devices and conducting integrated tests, errors and problems that were not found in the simulation stage can be found, and by correcting them, accuracy and reliability can be improved. If a problem is found in the integrated test, the test program is debugged or the test program and the test interface device 200 are modified by comparing with the data shown in the integrated simulation step.

On the other hand, the digital circuit verification system according to the present invention, the automatic test equipment 100 and the digital circuit card 300 and the digital test device (Digital Test Instrument) 110 is provided as shown in FIG. It may be configured to include a test interface device 200 for connecting the automatic test equipment 100, the test interface of the test interface device 200 and the digital test instrument (Digital Test Instrument) 110, integrated simulation Characterized in that verified through.

The simulation model of the test interface device 200 may extract a net list through a net list extraction function among functions of a schematic drawing tool and create a simulation model using the net list.

The integrated simulation is performed by using a simulation model of the digital circuit card 300 and the test interface device 200 and a test program of the digital test instrument 110. 110 is to verify whether the test program is operating properly, each signal line and the connector pin of the test interface device 200 is properly connected, and the like, and the test interface device ( Since 200 is manufactured, the reliability is higher than that of the conventional test interface device 200. In addition, even in the case of the test program, the simulation due to the signal delay of the test interface device 200 is reflected, thereby reducing design errors such as timing errors.

In addition, the digital circuit card 300, the digital test instrument (Digital Test Instrument) 110 and the test interface device 200 is actually connected to perform an integrated test, if the problem occurs in the integrated test, the integrated Debugging the test program or modifying the test program and the test interface device 200 in comparison with the data of the simulation further improves the accuracy and reliability of the digital circuit verification system.

100: Automatic Test Equipment
110: Digital Test Instrument
200: Interface Test Adapter
300: digital circuit card

Claims (7)

(a) analyzing the digital circuit card to verify the digital circuit;
(b) creating a test program of a digital test apparatus included in an automatic test equipment for testing the digital circuit card by performing data communication with the digital circuit card; And
(c) verifying the test program by simultaneously operating a test program of the digital circuit card and the digital test apparatus to perform a test on the digital circuit card;
In the digital circuit verification system design method comprising:
Between step (b) and step (c),
Preparing a circuit diagram of a test interface device connecting the automatic test equipment and the digital circuit card and extracting a netlist of the circuit diagram; And
Creating a simulation model for the test interface device using the netlist;
Including,
The step (c)
In operation of the test program of the digital circuit card and the digital test apparatus, a simulation model of the test interface device is operated simultaneously to perform a test on the digital circuit card, thereby performing the test on the test interface device together with the test program. Digital circuit verification system design method characterized in that for verifying.
The method of claim 1,
After step (c),
Manufacturing an actual test interface device based on a circuit diagram of the test interface device verified through integrated simulation; And
And conducting an integrated test by actually connecting the test interface device manufactured above to the digital circuit card and the digital test device.
The method of claim 1,
In the step (c)
The integrated circuit simulation system design method, characterized in that the integrated simulation is performed again by modifying the circuit diagram or the test program of the test interface device when a problem occurs in the verification through the integrated simulation.
delete A digital circuit card including an IC chip, a memory, and a physical interface;
Automatic test equipment equipped with a digital test device for testing the function of the digital circuit card; And
In the digital circuit verification system comprising; a test interface device for connecting the digital circuit card and the automatic test equipment,
When performing the test on the digital circuit card, a simulation model for the test interface device is simultaneously operated in addition to the test program of the digital circuit card and the digital test device, and the test interface device is verified with the test program. Digital circuit verification system, characterized in that.
The method of claim 5,
The simulation model of the test interface device,
And a net list extracted during the circuit diagram preparation process of the test interface device.
The method of claim 5,
The digital circuit card, the digital test device and the test interface device are actually connected to perform an integrated test, and when a problem occurs in the integrated test, the test program is debugged by comparing with the data of the integrated simulation or the test program and the Digital circuit verification system, characterized by modifying the test interface device.

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