JP2004199537A - Circuit verification device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow practical use for certain types of devices as well as inspection of a wide variety of circuit substrates with the same hardware constitution without modifying the hardware of an inspection circuit. <P>SOLUTION: A circuit verification device verifies circuit operation by controlling a verification circuit section 2 in which at least part of the verification circuit section 2 is formed to a PLD 20 by means of a control section 1 consisting of a computer system or the like. The device is constituted by: modifying the content (a PLD program loaded on a PLD 20a) of the PLD 20 of the inspection circuit section 2 in accordance with application; replacing the control program 10 of the control section 1 with another one. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a circuit verification device that performs functional inspection and evaluation of various types of circuit boards, and particularly to a device having the same hardware configuration and different functions from an inspection device, such as an emulator and a monitor device. The present invention relates to a suitable general-purpose circuit verification device.
[0002]
[Prior art]
When verifying the operation of the circuit board, such as debugging, evaluation, and inspection of the circuit under development, prepare the equipment used for verification in each of the verification steps, and if the type of the circuit changes, check the specifications. Are often changed, resulting in great cost and trouble.
[0003]
As a conventional technique for solving such a problem, for example, an inspection apparatus described in Patent Literature 1 and Patent Literature 2 has been proposed.
[0004]
The inspection apparatuses described in Patent Documents 1 and 2 each include a control unit including a computer system and the like, an inspection circuit unit, and a fixture unit. Based on the control of the control unit, the inspection circuit unit transmits the signal via the fixture unit. The circuit under test is transmitted and received by transmitting and receiving signals to and from the circuit under test. In particular, by converting at least a part of the circuit under test into a PLD (Programmable Logic Device), the circuit under test can be tested only by changing the PLD. Since it is possible to cope with differences between circuit boards, a single inspection apparatus can cope with the inspection of various types of circuit boards to be inspected without changing the hardware.
[0005]
However, even if at least a part of the inspection circuit unit is formed into a PLD as described above, for example, not only as an inspection device but also as a monitoring device, an emulator device, and the like, it is considered that such a device can be used for many devices. In many cases, a function different from that of the inspection device is required, so that the program of the control unit itself is often changed, and it is not sufficient to simply convert a part of the inspection circuit into a PLD.
[0006]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2002-022806 [Patent Document 2]
JP-A-2002-181897
[Problems to be solved by the invention]
The problem to be solved is that, in the conventional technology, at least a part of the inspection circuit is only PLD, and if the program content of the control unit cannot be changed according to the application, a monitor device, an emulator device, and the like are used. However, it cannot be used as a device other than the inspection device.
[0008]
SUMMARY OF THE INVENTION An object of the present invention is to solve the problems of the related art and to expand the use range of the circuit verification device.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, a control unit (1) including a computer system or the like controls a verification circuit unit (2) at least a part of which is a PLD (20) to verify circuit operation. A circuit verification device, characterized in that the contents of the PLD (20) of the verification circuit unit (2) are changed and the program (10) of the control unit (1) is replaced according to the application. . For example, the control unit (1a) includes a first unit (control program 10a) for transmitting a PLD program loaded into the PLD (20a) of the verification circuit unit (2a) to the verification circuit unit (2a); Second means (CPU) for executing a control program (control program 10a) for controlling the verification circuit unit (2a) by executing the PLD program loaded in the PLD (20a) of (2a). Accordingly, the contents of the PLD program to be loaded into the PLD (20a) of the verification circuit unit (2a) are changed, the control program (control program 10a) of the control unit (1a) is replaced, and the PLD of the verification circuit unit (2a) is replaced. 20a) includes a third means (operating verification target product information) for holding information for identifying the use of the PLD program loaded in the PLD (20a). Unit 21 and a device operation notifying unit 22), and the control unit (1a) includes a third unit (an operation verification target type notification unit 21 and a device operation notifying unit 22) of the verification circuit unit (2a). A fourth means (type and apparatus operation identification determining unit 11) for reading the held information and identifying the use of the PLD program loaded in the PLD (20a) is provided, and the control program (10a) Alternatively, the PLD program loaded into the PLD (20a) of the verification circuit section (2a) by another program based on the identification result of the fourth means (type and apparatus operation identification determination section 11) is sent to the control section (1a). It is characterized in that it is determined whether or not the program corresponds to the control program (10a) to be executed. The control unit (1b) includes a storage unit (memory) for storing one or more PLD programs (PLD files 13 to 15) to be loaded into the PLD (20b) of the verification circuit unit (2b), and a PLD program (PLD file). 13 to 15) into the PLD (20b) of the verification circuit section (2b) (PLD file loading means 12), and the identification result of the fourth means (type and apparatus operation identification determining section 11). If the PLD program loaded in the PLD (20b) of the verification circuit section (2b) does not correspond to the control program (the control program 10b) to be executed, the PLD loading means (PLD file loading means 12) uses the storage means (PLD file loading means 12). Corresponding to a control program (control program 10b) executed from one or more PLD programs stored in the memory). Characterized by loading the PLD (20b) of the verification circuit selects (2b) a.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0011]
FIG. 1 is a block diagram showing a first configuration example of a circuit verification device according to the present invention, FIG. 2 is a block diagram showing a configuration example of a test circuit unit in FIG. 1, and FIG. 5 is a control diagram in FIG. FIG. 3 is a block diagram illustrating a hardware configuration example of a unit.
[0012]
In FIG. 5, reference numeral 51 denotes a display device such as a CRT (Cathode Ray Tube) or LCD (Liquid Crystal Display); 52, an input device including a keyboard and a mouse; 53, an external storage device such as an HDD (Hard Disk Drive); , 54 are an information processing apparatus having a CPU (Central Processing Unit) 54a, a main memory 54b, an input / output interface 54c and the like to perform computer processing, and 55 is a CD-ROM (Compact Disc) on which programs and data according to the present invention are recorded. -Read Only Memory) or an optical disk such as a DVD (Digital Video Disc / Digital Versatile Disc), 56 is a driving device for reading out programs and data recorded on the optical disk 55, 57 is a LAN (Local Area Network) card or modem And the like.
[0013]
After the program and data stored in the optical disk 55 are installed in the external storage device 53 by the information processing device 54 via the driving device 56, the information is read from the external storage device 53 into the main memory 54b and processed by the CPU 54a. The functions of the control unit 1 shown in FIG.
[0014]
The circuit verification device in FIG. 1 basically verifies the operation of the operation verification target 3 composed of an electronic circuit such as a circuit or a product, and has the configuration of FIG. 5 and includes a CPU (Central Processing Unit) and A control unit 1 comprising a computer system or the like having a memory or the like and performing a process based on a program, and a verification circuit unit at least partially PLD-based for verifying the operation of the operation verification target 3 under the control of the control unit 1 2 and is physically connected to the operation verification target 3 by a connector cable, fixture, or the like (not shown).
[0015]
The verification circuit unit 2 is connected to and controlled by the control unit 1. The control unit 1 controls the entire apparatus by computer processing based on a control program (described as a “program” in the figure) 10 stored in a memory, and has a configuration corresponding to the verification content of the operation verification target 3. 2 control. The control unit 1 also controls the operation verification target 3 in some cases.
[0016]
In this example, the control program 10 is configured to be selected by the user according to the contents of the PLD of the verification circuit unit 2. However, the configuration may be such that the function to be enabled is selected by the operation of the apparatus by executing one execution program.
[0017]
The verification circuit unit 2 generates the input / output timing of a signal for exchanging signals with the operation verification target 3 under the control of the control unit 1 according to the verification content of the operation verification target 3. .
[0018]
As shown in FIG. 2, the verification circuit unit 2 includes a PLD 20 for inputting / outputting a signal between the control unit 1 and the operation verification target 3, a data storage unit 24 for storing data, and a PLD 20 for storing data. It is composed of a rewriting circuit section 25 for rewriting the contents.
[0019]
By using a PLD such as an SRAM (Static Random Access Memory) type for the PLD 20, the internal logic of the PLD can be arbitrarily rewritten by the rewriting circuit unit 25 based on circuit data (PLD program) transferred from the outside. The contents of the PLD 20 can be rewritten according to the type of the operation verification target 3 and the device operation.
[0020]
The data storage unit 24 uses a memory such as an SDRAM (Synchronous Dynamic Random Access Memory) to store data to be output from the verification circuit unit 2 to the operation verification target 3 and to fetch data from the operation verification target 3 It is for storage.
[0021]
With such a configuration, by changing the contents (PLD program) of the PLD 20 by the rewriting circuit unit 25 of the verification circuit unit 2 and changing the control program 10 mounted on the control unit 1, the circuit type and It is possible to realize an operation according to the device operation content.
[0022]
Hereinafter, a case will be described in which the circuit verification apparatus of this example is used as an inspection apparatus for the image processing board, with the image processing board as an example of the operation verification target 3.
[0023]
First, the user rewrites the PLD 20 in the verification circuit unit 2 to a predetermined content (PLD program) for inspecting the image processing board, and executes the control program 10 corresponding to the device operation in the control unit 1.
[0024]
The control unit 1 controls the verification circuit unit 2 and, in some cases, the operation verification target 3, and inputs data to the operation verification target 3. The operation verification target 3 applies image processing to the input data, and outputs the result data to the verification circuit unit 2.
[0025]
The verification circuit unit 2 captures data output from the operation verification target 3 and stores the data in the data storage unit 24. Then, the control unit 1 or the verification circuit unit 2 determines whether or not these data are predetermined data.
[0026]
As described above, in the circuit verification device of this example, the operation verification target 3 as the image processing board is obtained by rewriting the contents (PLD program) of the PLD 20 of the verification circuit unit 2 and selectively executing the control program 10 of the control unit 1. Inspection can be performed.
[0027]
Next, a case where the circuit verification device in FIG. 1 is used as a monitor of an interface bus will be described as an example.
[0028]
In order to monitor a certain interface bus, the PLD 20 in the verification circuit unit 2 is rewritten to a predetermined content (PLD program), and the control unit 1 executes the control program 10 corresponding to the device operation as a monitor.
[0029]
The control of the control unit 1 based on the control program 10 controls the verification circuit unit 2 and, in some cases, the operation verification target 3, and transmits the bus signal of the operation verification target 3 to the data storage unit 24 of the verification circuit unit 2. Alternatively, the data is taken into the data storage unit of the control unit 1.
[0030]
The control unit 1 reads the data taken into the data storage unit 24 and displays a signal state on a display (not shown). In this way, the transition of the bus signal of the operation verification target 3 can be displayed on the display or the like by the control unit 1, so that the circuit verification device of this example can be used as an interface bus monitor.
[0031]
Next, an example will be described in which the circuit verification device in FIG. 1 is operated as an emulator that operates the scanner.
[0032]
First, in order for the circuit verification device of this example to perform an emulator operation as a scanner, the PLD in the verification circuit unit 2 is rewritten to a predetermined content (PLD program). The control program 10 is executed.
[0033]
In this configuration, the operation of the apparatus behaves as if it were a scanner. That is, under the control of the control unit 1, the scan data is stored in the data storage unit 24 of the verification circuit unit 2. Further, the control unit 1 controls the verification circuit unit 2 and, in some cases, the operation verification target 3, and transfers the scan data stored in the data storage unit 24 of the verification circuit unit 2 to the operation verification target 3.
[0034]
In this way, the circuit verification device of the present example behaves as if it were a scanner, so that the circuit verification device of the present example can be used for evaluation and debugging of devices connected to the scanner. Become.
[0035]
If necessary, the operation verification target 3 causes the input scan data to be subjected to predetermined image processing and the like, and the processing result is taken into the data storage unit 20 in the verification circuit unit 2, and the predetermined data is It is also possible to determine whether or not it is set.
[0036]
As described above, the circuit verification device of the present example is configured such that the change in the contents (PLD program) of the PLD 20 of the verification circuit unit 2 and the change of the control program 10 of the control unit 1 cause only the difference in the circuit type of the operation verification target 3. In addition, it can respond to differences in device operation, increasing the flexibility and expandability of the device, and can be used not only as an inspection device but also as a functionally different device such as an emulator, monitor device, etc. It is possible to do.
[0037]
As described above, when the circuit verification apparatus in FIG. 1 performs the inspection on the operation verification target 3 and then monitors a predetermined signal interface in the same operation verification target 3, the monitoring control program 10 At the same time, it is necessary to change the contents of the PLD (PLD program) for monitoring. However, if the contents of the PLD (PLD program) are not changed for monitoring and remain for inspection, not only do they not operate properly, There is a risk that the operation verification target 3 and the verification circuit unit 2 may be destroyed. Hereinafter, an example of a circuit verification device that addresses such a problem will be described with reference to FIGS.
[0038]
FIG. 3 is a block diagram illustrating a second configuration example of the circuit verification device according to the present invention, and FIG. 4 is a block diagram illustrating a third configuration example of the circuit verification device according to the present invention.
[0039]
In the circuit verification device shown in FIG. 3, in the PLD 20a of the verification circuit unit 2a, identification information indicating the type of the operation verification target 3a connected to the verification circuit unit 2a and identification information indicating the device operation content (PLD program) are included. An operation verification target type notification unit 21 and a device operation notification unit 22 that hold the respective devices are provided, and a control program 10a executed by the control unit 1a includes an operation verification target type notification in the PLD 20a of the verification circuit unit 2a. The type and device operation are identified by accessing the unit 21 and the device operation notifying unit 22 to identify and determine the type and device operation content (PLD program) of the operation verification target 3a connected to the verification circuit unit 2a from each identification information. An identification determination unit 11 is provided.
[0040]
In the circuit verification device of this example, when the user writes a PLD file (PLD program) corresponding to the type of the operation verification circuit 3a and the operation of the device into the PLD 20a of the verification circuit unit 2a, the operation verification target in the PLD 20a is used. The identification information held by the type notification unit 21 and the device operation notification unit 22 is also written.
[0041]
After the writing, prior to the execution of the control program 10a by the control unit 1a, the control program 10a is controlled by the product type and device operation identification determination unit 11 to perform the operation verification target product notification unit 21 in the PLD 20a of the verification circuit unit 2a and the device. The operation notifying unit 22 is accessed to read out the respective identification information held therein, and based on the identification information, identifies the type of the operation verification target 3a connected to the verification circuit unit 2a and the device operation content (PLD program). Then, it is determined whether or not the contents (PLD program) of the PLD 20a of the verification circuit unit 2a correspond to the circuit type and the device operation of the control program 10a to be executed.
[0042]
In this way, in the control program 10a of the control unit 1a, whether the PLD 20a provided in the verification circuit unit 2a is correct or not, not only with respect to the circuit type, but also with respect to the device operation is determined by executing the device operation after rewriting the internal circuit of the PLD 20a. This makes it possible to prevent a malfunction due to a mismatch between the contents of the control program 10a and the contents of the operation verification target 3a and the verification circuit unit 2a (PLD program loaded into the PLD 20a).
[0043]
In the circuit verification device shown in FIG. 3, the operation verification target product type notification unit 21 and the device operation notification unit 22 provided in the PLD 20a of the verification circuit unit 2a are accessed and connected to the verification circuit unit 2a. The program having the function of identifying and determining the type of the operation verification target 3a and the device operation content (PLD program loaded into the PLD 20a) (type and device operation identification determination unit 11) includes a control program executed by the control unit 1a. The program is not limited to 10a and may be another program.
[0044]
Further, when the PLD 20a is configured by an SRAM, if the device power is turned off (turned off), the contents of the PLD 20a are erased. Therefore, every time the device power is turned on (turned on), the control unit 1a writes the PLD 20a (PLD 20a). File program), which takes time. In order to shorten the load time, an EEPROM (Electronically Erasable and Programmable Read Only Memory) programmable from the control unit 1a is provided in the verification circuit unit 2a, and when the power supply of the device is turned on, the program is stored in the PLD 20a from the EEPROM. Can be configured to be loaded.
[0045]
In this case, as in the case of the circuit verification device of this example, when the device is used not only for inspection of a circuit board but also for a monitor or the like, whether the PLD 20a that has risen from the EEPROM immediately after the power of the device is turned on is used for inspection or monitoring. Although the user does not know, as shown in this example, by providing the verification circuit unit 2a with a function indicating the program contents of the PLD 20a such as the operation verification target type notification unit 21 and the device operation notification unit 22, control can be performed. The program 10a itself can automatically determine the correctness of the PLD 20a (the loaded PLD program).
[0046]
In the circuit verifying device shown in FIG. 4, similarly to the circuit verifying device in FIG. 3, a PLD 20b of a verifying circuit unit 2b is provided with an operation verification target type notification unit 21a and a device operation notification unit 22a, and a control program of the control unit 1b. 10b is provided with a product type and apparatus operation identification judging unit 11a, and further, a PLD file loading means 12 is provided in the control program 10b of the control unit 1b, and one or more PLD files 13 to 10 are provided outside the control program 10b. 15 are provided.
[0047]
In the circuit verification device of this example, when the power is turned on, the PLD program (PLD file) previously written in the EEPROM, for example, is loaded into the PLD 20b in the verification circuit unit 2b.
[0048]
Prior to the start of the execution of the processing of the control program 10b, the control unit 1b performs the verification performed by the product type and device operation identification determination unit 11a via the operation verification target product type notification unit 21a and the device operation notification unit 22a. It is determined whether the PLD program loaded from the EEPROM into the PLD 20b of the circuit unit 2b matches the control program 10b.
[0049]
If they match, execution of the process by the control program 10b is started as it is, but if they do not match, the PLD file loading means 12 is started and the PLD files 13 to 15 are sent to the control program 10b. A corresponding PLD file is selected and loaded into the PLD 20b of the verification circuit unit 2b.
[0050]
Note that, in the circuit verification device of this example, the control unit 1b checks the PLD program loaded into the PLD 20b of the verification circuit unit 2b by the type and device operation identification determination unit 11a prior to the start of the execution of the process of the control program 10b. The PLD file loading means 12 may be started immediately without determining whether the PLD file is correct, and a PLD file corresponding to the control program 10b may be selected from the PLD files 13 to 15 and loaded into the PLD 20b of the verification circuit unit 2b. .
[0051]
However, as described above, by performing the procedure for determining whether the program of the PLD 20b is correct or not by the type and apparatus operation identification determination unit 11a, the execution of the process by the control program 10b can be quickly started when the program matches. .
[0052]
In this manner, in the control program 10b of the control unit 1b, prior to execution of the device operation, the PLD program of the PLD 20b provided in the verification circuit unit 2b can be made to correspond to the control program 10b. It is possible to prevent a malfunction due to a mismatch between the contents of the program 10b, the operation verification target 3b, and the verification circuit unit 2b.
[0053]
As described above with reference to FIGS. 1 to 4, the circuit verification device of the present embodiment is configured such that the control unit 1 including a computer system or the like controls the verification circuit unit 2, which is at least partially formed as a PLD 20, A circuit verification device for verifying operation, in which the contents of the PLD 20 of the verification circuit unit 2 (PLD programs loaded on the PLD 20a) are changed and the control program 10 of the control unit 1 is replaced according to the application. I do.
[0054]
For example, the control unit 1a transmits the PLD program loaded on the PLD 20a of the verification circuit unit 2a to the verification circuit unit 2a by the control program 10a, and executes the PLD program loaded on the PLD 20a of the verification circuit unit 2a for verification. The circuit section 2a is controlled.
[0055]
Further, the PLD 20a of the verification circuit unit 2a is provided with an operation verification target type notification unit 21 and an apparatus operation notification unit 22 that hold information for identifying the use of the PLD program loaded in the PLD 20a. Is provided with a product type and device operation identification determining unit 11 that reads information held by the device type notification unit 21 and the device operation notification unit 22 of the verification circuit unit 2a and identifies the use of the PLD program loaded in the PLD 20a. In the control unit 1a, the PLD program loaded into the PLD 20a of the verification circuit unit 2a is executed by the control unit 1a by the control program 10a or another program based on the identification result of the type and apparatus operation identification determination unit 11. It is determined whether or not it corresponds to 10a.
[0056]
Also, the control unit 1b stores one or more PLD files 13 to 15 to be loaded into the PLD 20b of the verification circuit unit 2b in a storage device such as a memory, and based on the identification result of the type and device operation identification determination unit 11, verifies the verification circuit unit. If the PLD program loaded in the PLD 20b of 2b does not correspond to the control program 10b to be executed, the PLD file loading means 12 selects a PLD file corresponding to the control program 10b from the PLD files 13 to 15, and Is loaded into the PLD 20b of the verification circuit unit 2b.
[0057]
As described above, by changing the contents of the PLDs 20, 20a, 20b in the verification circuit units 2, 2a, 2b and the control programs 10, 10a, 10b mounted on the control units 1, 1a, 1b, many operations are performed. This circuit verification device can be used not only for conventional types of circuit boards but also for devices with different functions, and can be used not only for conventional inspection but also for, for example, monitors and emulators.
[0058]
In the control units 1a and 1b, the type and device operation identification judging units 11 and 11a use the information held in the operation verification target type notification units 21 and 21a and the device operation notification units 22 and 22a provided in the verification circuit unit 2a. Before executing the device operation after rewriting the internal circuits of the PLDs 20a and 20b of the verification circuit units 2a and 2b, based on the operation verification target and the device operation, and the control programs 10a and 10b executed by the control units 1a and 1b. By judging whether the contents match or not, it is possible to prevent a malfunction due to the mismatch.
[0059]
In the case of a mismatch, the control unit 1b selects, by the PLD file loading means 12, one or more PLD files 13 to 15 corresponding to the control program 10b to be executed from among one or more PLD files 13 to 15, and performs verification. By loading the PLD 20b of the circuit unit 2b, a malfunction due to mismatch is prevented. The loading of the PLD files 13 to 15 into the PLD 20b of the verification circuit unit 2b may be performed via the rewritable ROM 23 in the verification circuit unit 2b.
[0060]
It should be noted that the present invention is not limited to the example described with reference to FIGS. 1 to 4 and can be variously modified without departing from the gist thereof. For example, in this example, the data storage unit 24 is provided in the verification circuit unit 2. However, if the interface between the control unit 1 and the verification circuit unit 2 realizes a sufficient transfer speed on the device, a computer system or the like is used. May be used as the data storage unit, such as a memory of the control unit 1 or a hard disk drive (HDD).
[0061]
Also, as an example of using the circuit verification device of this example, an image processing board inspection device, an interface bus monitor, and a scanner emulator have been described. However, the circuit verification device can also be used for other inspection systems, bus analyzers, pattern generators, and the like. It is possible.
[0062]
Further, the rewritable ROM 23 provided in the verification circuit section 2b in FIG. 4 may be configured to be provided in the verification circuit sections 2 and 2a in the respective circuit verification apparatuses shown in FIGS.
[0063]
Further, the control section is not limited to the configuration of the computer system shown in FIG. 5, and the configuration of the computer system may be such that a flexible disk (FD) or the like is used instead of an optical disk as a recording medium for the program. But it's fine.
[0064]
【The invention's effect】
According to the present invention, the contents of the PLD of the verification circuit unit 2 and the program of the control unit constituting the circuit verification device for verifying the circuit operation can be changed according to the application. In addition to being able to inspect a variety of circuit boards, it can also be used as other devices such as a monitor and an emulator, and the range of use of the circuit verification device can be expanded.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first configuration example of a circuit verification device according to the present invention.
FIG. 2 is a block diagram illustrating a configuration example of a test circuit unit in FIG. 1;
FIG. 3 is a block diagram showing a second configuration example of the circuit verification device according to the present invention.
FIG. 4 is a block diagram showing a third configuration example of the circuit verification device according to the present invention.
FIG. 5 is a block diagram illustrating a hardware configuration example of a control unit in FIG. 1;
[Explanation of symbols]
1, 1a, 1b: control unit ("computer system"), 2, 2a, 2b: verification circuit unit, 3, 3a, 3b: operation verification target, 10, 10a, 10b: control unit program ("program") , 11, 11a: product type and device operation discrimination unit, 12: PLD file loading means, 13 to 15: PLD file, 20, 20a, 20b: PLD, 21, 21a: operation verification target product notification unit, 22, 22a : Device operation notification unit, 23: rewritable ROM, 24: data storage unit, 25: data rewriting circuit unit, 51: display device, 52: input device, 53: external storage device, 54: information processing device, 54a: CPU (Central Processing Unit), 54b: main memory, 54c: input / output interface, 55: optical disk, 56: drive device, 57: communication device.

Claims (5)

A circuit verification device for verifying circuit operation by controlling verification circuit means at least partially PLD by control means including a computer system or the like,
Means for transmitting, to the verification circuit means, a PLD program loaded on the PLD of the verification circuit means, causing the control means to execute the PLD program loaded on the PLD of the verification circuit means, Means for executing a control program for controlling,
A circuit verification apparatus characterized in that the PLD program loaded into the PLD of the verification circuit means is changed according to use, and the control program executed by the control means is replaced. A circuit verification device for verifying circuit operation by controlling verification circuit means at least partially PLD by control means including a computer system or the like,
First means for transmitting the PLD program loaded on the PLD of the verification circuit means to the verification circuit means, and executing the PLD program loaded on the PLD of the verification circuit means, And second means for executing a control program for controlling the circuit means.
Changing the contents of the PLD program loaded into the PLD of the verification circuit means and replacing the control program of the control means according to the application;
The PLD of the verification circuit means is provided with third means for holding information for identifying the use of the PLD program loaded in the PLD,
The control means includes fourth means for reading information held by the third means of the verification circuit means and identifying a use of the PLD program loaded in the PLD,
The control means determines whether or not the PLD program loaded in the PLD of the verification circuit means corresponds to a control program executed by the control means based on the identification result of the fourth means. Characteristic circuit verification device. The circuit verification device according to claim 2, wherein
The control means corresponds to the control program executed by the control means by the PLD program loaded into the PLD of the verification circuit means based on the identification result of the fourth means by the control program or a newly provided program. A circuit verification device for determining whether or not the circuit verification has been performed. The circuit verification device according to claim 1, wherein:
Storage means for storing a PLD program to be loaded into the PLD of the verification circuit means;
A PLD loading unit for loading the PLD program into the PLD of the verification circuit unit. A circuit verification device according to claim 2 or claim 3,
Storage means for storing one or more PLD programs;
PLD loading means for loading the PLD program into the PLD of the verification circuit means,
As a result of the identification by the fourth means, if the PLD program loaded in the PLD of the verification circuit means does not correspond to the control program to be executed, the PLD loading means causes the PLD loading means to store one or more PLD programs stored in the storage means. A circuit verification device which selects a program corresponding to a control program to be executed from the PLD and loads the selected program into a PLD of the verification circuit means.

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