KR101174716B1 - Apparatus and system for verifying of equipment - Google Patents

Abstract

PURPOSE: An apparatus and a system for verifying equipment is provided to reliably evaluate target equipment by evaluating equipment based on process data recorded in a process memory. CONSTITUTION: An output data storing unit(110) stores a time tag in output data of target equipment operated by an input signal. A processing data storing unit(120) extracts process data in a processing memory of the target equipment and gives the time tag. An evaluating unit(130) extracts the output and processing data and evaluates the target equipment after comparing reference data.

Description

Equipment verification system and system {APPARATUS AND SYSTEM FOR VERIFYING OF EQUIPMENT}

The present invention relates to an apparatus and an apparatus for verifying a device, and more particularly, to an apparatus and a system for verifying a task processing capability of a device for storing data derived from a process in an internal temporary storage means.

In general, operating software that is built into equipment where safety is essential is required to demonstrate integrity. Thus, software embedded in safety critical requirements equipment also requires validation of lower level functional requirements.

The existing software verification device performs a software unit test using a commercial test device and verifies functional requirements by monitoring only external input / output signals in real time. Therefore, the verification scope is limited, and it is impossible to verify the software requirements for which verification is required in real time.

Therefore, in order to perform the functional requirement verification of the software in real time, a device for generating a signal to be input to the device under test, and controlling and monitoring the target processor should be developed and automatically operated.

The present invention is to provide a device verification apparatus and system for verifying the work processing capability of the equipment for storing the data derived during the business process in the internal temporary storage means.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

Equipment verification apparatus of the present invention for achieving the above object is an output data storage unit for storing the output data of the target equipment driven by the input signal, the processing of the target equipment at the time when the output data is output from the target equipment And a process data storage unit for extracting and storing process data recorded in a memory, and an evaluation unit for evaluating the target equipment by comparing the stored output data and the stored process data with reference data.

In this case, the simulation signal generating unit for generating a simulation signal may further include, and the input signal may be the simulation signal.

The output data storage unit may store the output data in real time, and the processing data storage unit may store the process data in real time.

The output data storage unit and the processing data storage unit may be integrally formed, and the output data and the processing data may be stored together.

The output data storage unit may store the output data after assigning a time tag to the output data, and the processing data storage unit may store the process data after assigning the time tag to the output data, and the evaluation unit may be assigned the same time tag. The output data and the processed data can be extracted and compared with the reference data.

In addition, the target device may process the input signal through software.

In this case, the software may further include an error data recording unit for simulating and writing the error data recorded in the processing memory when the software error occurs.

The processing data storage unit may include an emulator connected to the target device to extract and store processing data recorded in the processing memory, and a storage capacity of all processing data stored in real time during a set verification period, and stored in the emulator. It may include an external storage for extracting and storing the processing data.

On the other hand, the device verification system of the present invention delivers the simulation signal to the target device driven by software, and the interlocking device for storing the output data of the target device due to the simulation signal, at the time when the output data is output from the target device A monitoring device for extracting and storing the processing data stored in the processing memory of the target device and generating the simulation signal and transmitting the simulated signal to the companion device, and extracting the output data stored in the companion device and the processing data stored in the monitoring device. And an evaluation device for evaluating the target equipment by comparing with the data.

In this case, the monitoring device may simulate and record the error data recorded in the processing memory at the time of the software error in accordance with the request of the evaluation device and write the data into the processing memory.

In addition, the evaluation device sets a breakpoint on at least one of the companion device and the monitoring device, and the device in which the breakpoint is set generates a confirmation message at the time when the set breakpoint is generated and delivers it to the evaluation device. The evaluation device may compare output data and processing data extracted from the companion device and the monitoring device with reference data when the confirmation message is received.

The device verification apparatus and system of the present invention described above can evaluate the target equipment reliably by using the output data of the target equipment and data recorded in the processing memory such as registers and buffers inside the equipment.

That is, by evaluating the equipment using not only the output data resulting from the work processing but also the processing data temporarily recorded in the equipment in the work processing process, it is possible to reliably evaluate the safety-critical equipment requiring a flawless operation.

In addition, it is possible to evaluate the processing of the target device at the time of the internal error by generating a simulated error data that is temporarily recorded when an error occurs during the processing of the process and recorded in the processing memory of the target device.

In addition, by providing a large-capacity storage unit outside the emulator used for processing data extraction, data extracted in real time from the emulator can be stored and used for evaluation.

1 is a block diagram showing a device verification apparatus of the present invention.
2 is a block diagram illustrating an equipment verification system of the present invention.
Figure 3 is a block diagram showing an interlock device of the equipment verification system of the present invention.
Figure 4 is a block diagram showing a monitoring device of the equipment verification system of the present invention.
5 is a flowchart showing the operation of the monitoring device of the equipment verification system of the present invention.
6 is a flowchart showing the operation of the evaluation apparatus of the equipment verification system of the present invention.
7 is an inter-device signal flow diagram for data transfer between components of an equipment verification apparatus performed to verify software requirements.

Hereinafter, the device verification apparatus and system of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram showing a device verification apparatus of the present invention.

The apparatus for verifying a device shown in FIG. 1 includes an output data storage unit 110 for storing output data of a target device driven by an input signal, and in the processing memory of the target device at the time when the output data is output from the target device. And a process data storage unit 120 for extracting and storing recorded process data and an evaluation unit 130 for evaluating the target equipment by comparing the stored output data and the stored process data with reference data.

The output data storage unit 110 is an element for extracting and storing data output from the target device for verification. The target equipment at this time is driven by a predetermined input signal input from the outside, and the data output from the target equipment is a result of processing the input signal. The target device can process the input signal through software, and the input signal must contain data that can be processed by the target device.

The process data storage unit 120 extracts and stores process data recorded in the process memory of the target device driven by the input signal. The processing memory includes a memory, a buffer, a register, and the like for temporarily storing various data generated in the input signal processing. The processing data is data generated in the input signal processing process and corresponds to data used inside the target equipment. In general, it is difficult to know the processing data outside the target equipment.

The process data stored in the process data storage unit is the same as the time point at which the output data is output from the target device. The processing data extracted at the time when the output data is output may be data related to output data generation. Therefore, when the output data of the target equipment and the processing data at the time of extracting the output data are extracted together, the operation of the target equipment with respect to the input signal may be performed internally and externally.

The process data store must access the process memory of the target device for extraction of the process data. However, for reliable equipment verification, it is necessary to ensure that the target equipment is not involved in the extraction of the processing data. That is, regardless of the extraction of the processing data, the target equipment needs to perform processing on the input signal only. With such equipment an emulator can be used. An emulator is a commercially available device that can extract or manipulate data in the processing memory of various devices. However, since the emulator has a limited-capacity storage, there is a limitation in storing the process data. As a result, in a situation where a large amount of processing data is processed in real time, all processing data extracted during the verification period cannot be stored. Thus, a separate storage unit for storing the processing data may be provided.

In summary, the process data storage unit 120 is connected to the target device to extract and store the process data recorded in the process memory 121 and the storage capacity of the entire process data stored in real time during the set verification period And an external storage unit 123 which extracts and stores processing data stored in the emulator.

The evaluation unit 130 compares the output data of the target device stored in the output data storage unit and the processing data of the target device stored in the process data storage unit with the reference data. In this case, the reference data may include both reference data for output data of the target equipment and reference data for processing data of the target equipment.

According to the above configuration, the device verification apparatus may verify both the data output from the target device operating with the predetermined input signal and the data inside the target device. Therefore, even when the current output data is normal, it is possible to check for an error of the internal data that may cause an error in the future output data. The result is an integrity verification of the target equipment for which safety is essential, for example the equipment on which the operating software is mounted.

Validation requires an input signal to operate the target device.

This input signal will be a signal applied in the environment where the target equipment is actually deployed, but it is better to alleviate this limitation.

Therefore, the apparatus verification apparatus further includes a simulation signal generator 140 generating a simulation signal, wherein the input signal of the target equipment may be a simulation signal generated by the simulation signal generator.

Meanwhile, the device verification apparatus may perform verification in real time for reliable verification. To this end, the output data storage may store the output data in real time, and the processing data storage may store the processing data in real time.

Output data and processing data are stored in separate elements. Therefore, for reliable evaluation in the evaluation unit, the evaluation unit should be able to extract output data and processing data at the same time.

For this purpose, the output data storage unit and the processing data storage unit may be integrally formed. In this configuration, the output data and the processed data can be stored together. Therefore, since the output data and the processing data extracted at the same time are stored together, the evaluation unit can easily extract the output data and the processing data at the same time.

Alternatively, a time tag can be used.

For example, the output data storage unit may store a time tag after assigning a time tag to the output data, and the process data storage unit may store the data after applying a time tag applied thereto. In this case, the evaluation unit may extract the output data and the processing data to which the same time tag is assigned and compare the reference data.

If the target device processes the input signal through software, you can simulate the error situation inside the target device.

In the case of software-driven target equipment, the input signal may not be processed normally due to external or internal errors. In this case, the coping action of the target device can be verified. For example, when various errors occur, the target device temporarily stores error data, which is processing data generated in association with an error, in the processing memory. Therefore, if the simulated error data can be temporarily recorded in the processing memory, the error situation of the target equipment can be simulated.

The error data recorder 150 is used for this purpose. The error data recording unit 150 simulates and records error data recorded in the processing memory at the time of an error in software and records the processing data in the processing memory. The error data recorder 150 may record the generated error data directly in the processing memory of the target device or transmit the generated error data to the emulator. In the latter case, the emulator writes the error data passed to processing memory.

According to the above, it is possible to verify the coping ability of the target equipment when an error occurs.

2 is a block diagram illustrating an equipment verification system of the present invention.

The device verification system illustrated in FIG. 2 transmits a simulation signal to a target device driven by software, and the companion device 210 which stores output data of the target device due to the simulation signal, and outputs the output data from the target device. The monitoring device 220 extracts and stores the processing data stored in the processing memory of the target device at the time point and the simulation signal is generated and transmitted to the companion device, and the output data stored in the companion device and stored in the monitoring device. It may include an evaluation device 230 for evaluating the target equipment by extracting the processing data and comparing with the reference data.

The companion device 210 receives the simulation signal generated by the evaluation device and delivers the simulated signal to the target device, and extracts and stores output data of the target device. The companion device may include the output data storage unit 110 of FIG. 1 and may additionally store the simulation signal.

The monitoring device 220 extracts and stores the processing data stored in the processing memory of the target device at the time when the companion device extracts and stores the output data of the target device. For this purpose, the monitoring apparatus needs to know the time point at which the output data is stored in the companion device. This time point may be received from the companion device. If the companion device and the monitoring device are controlled by the evaluation device, the time point may be simultaneously received by the companion device and the monitoring device from the evaluation device. The monitoring device may include the process data storage of FIG. 1.

In addition, the monitoring device may simulate and record the error data recorded in the processing memory of the target equipment at the time of the software error in accordance with the request of the evaluation apparatus and record the processing in the processing memory. To this end, the monitoring device may include the error data recorder 150 of FIG. 1.

The evaluation device 230 generates a simulation signal and delivers it to the companion device. In addition, the target equipment may be evaluated by extracting output data stored in the companion device and processing data stored in the monitoring device and comparing them with reference data. In order to inform the user of the evaluation result, the evaluation apparatus may include a visual display means such as a display and an acoustic display means such as a speaker. In addition, the evaluation device may control the monitoring device and the companion device.

The evaluation device may set a breakpoint on at least one of the companion device and the monitoring device. When the breakpoint is set, the device generates a confirmation message and delivers the confirmation message to the evaluation device, and the evaluation device uses the output data and the processing data extracted from the companion device and the monitoring device as reference data when the confirmation message is received. Can be compared with According to this, the evaluation apparatus can perform the verification of the target equipment only at the break point, thereby reducing the load.

3 is a block diagram showing an interlock device of the equipment verification system of the present invention.

The evaluation apparatus creates test cases according to the requirements for verification of the target equipment on which the software is installed, and controls the interlocking device and the monitoring device according to each test case. At this time, the data input to the target equipment is a simulation signal included in the test case.

The companion device is connected to the evaluation device and the target device, and performs a function of transmitting and receiving an input / output signal with the target device according to the command of the evaluation device. In addition, the monitoring device is connected to the evaluation device and the target device, and performs a function of transmitting signals of a memory and a register to the evaluation device in real time during operation of the target device according to a command of the evaluation device.

According to the above configuration, it is possible to verify the status of the target device's internal memory and registers in real time while improving the reliability of the software while operating the software using the test case created according to the functional requirement analysis of the target device's operating software. have.

The companion device 210 shown in FIG. 3 receives a command signal from the evaluation device through high speed serial communication, and provides a power supply module 211 and a serial communication input / output function for supplying operating power of a target device according to the command. A serial communication module 212, a discrete signal input / output module 213 providing a discrete signal input / output function, an analog signal input / output module 214 providing an analog signal input / output function, and a command signal received from an evaluation device The main module 215 is configured to perform signal generation and control, and performs a function of sequentially controlling input and output signals of the target device 100 according to a test case. The signal cutoff relay 216 performs a function of individually blocking an input signal of a target device according to a test case.

Figure 4 is a block diagram showing a monitoring device of the equipment verification system of the present invention.

The monitoring device 220 shown in FIG. 4 receives and transmits and receives a request command for setting an event or collecting data from a memory or a register according to a test case according to a test case through a high speed serial communication in an evaluation device. The communication module 229 analyzes the received command to generate a data transmission / reception command in a processor control signal and a memory and a register, and stores the data received from the command analysis module 226 and the evaluation device to determine whether the command is valid. The data processing module 227 for storing the result data performed by the command execution module 225, the command execution module 225 for executing the command specified by the command analysis module 226, and the command execution module 225 in real time. Scheduling module that runs a real-time timer and schedules tasks to execute 228, and between the monitoring device 220 and the target device consists of a commercial emulator 224 to perform communication through the linkage, such as JTAG, NEXUS. The instruction execution module 225 is a target processor control module 221 which provides control signals (run, halt, reset, breakpoint) to the onboard processor of the target device, and memory for reading / writing data to a specific address of the memory of the target device. Read / write module 222, register read / write module 223 for reading and writing data to a specific register of the target device.

The operation of the monitoring apparatus is shown in FIG.

When the program of the monitoring device is started, the global variable and the memory are initialized, the high speed serial communication is initialized, and a timer for executing the command in real time is initialized (401). A scheduler for scheduling tasks performed in the device is driven (402), then awaits receipt of a command from the evaluation device via high speed serial communication (403) and continues to wait for communication reception (404). When communication is received, the command analysis module analyzes the received command (405), determines the validity of the command (406), and branches according to the type of the received command (407) to control the target processor control command (run, halt, reset). , breakpoint) (408) or a memory Read / Write instruction (409), or a register Read / Write instruction (410), and the result value of the executed instruction is stored in the data processing module (411). . In order to transmit the data stored in the data processing module to the evaluation apparatus through high speed serial communication, a communication packet is generated and the data is transmitted to the host (412), and the process is performed until the evaluation apparatus issues a test termination command ( 413). Descriptions of the commands executed by the monitoring device are given in Table 1.

6 is a flowchart illustrating the operation of the program performed in the evaluation apparatus.

When the operation program of the evaluation device is started, initialization of hardware and software of the companion device is performed (601), and initialization of hardware and software of the monitoring device is performed (602). The next step is to apply the power to the target device through the interlocking device (603), and test the test case consisting of the signal input condition, execution environment condition, and expected signal result created by analyzing the functional requirements of the software. Select a case (604), perform the setting of an event or a break point in the target equipment mounting software using the monitoring device to collect data for monitoring according to the test case (605), and perform a test using the interlock device To generate the input signal of the target equipment for (606). When the target device operates, the monitoring device receives data of the internal memory / register of the target device in real time (607), and compares it with the expected result in the evaluation device (608). Using the comparison result, it is determined whether the requirement is also satisfied (609), and this is repeatedly performed until all requirements are satisfied (610). If the comparison result does not meet the requirements, the unsatisfied test information is recorded (611) for the operator to confirm and the test is terminated.

7 is an inter-device signal flow diagram for data transfer between components of an equipment verification apparatus performed to verify software requirements.

In order to perform tests to meet the overall software requirements, this should be repeated as much as the overall requirements. Depending on the test case, the evaluation device requests event and breakpoint settings so that the monitoring device can check the internal condition of the target equipment and receive data from memory or registers. The evaluation device transmits a request signal so as to set a signal to be input to the target device to the companion device according to the test case, and then requests a test start. When the companion device receives the test start request signal from the evaluation device, the companion device transmits an execution command of the target device, transmits an input signal to the target device, and receives an output signal. The monitoring device continues to receive data from the memory / register from the target equipment and sends a confirmation message to the evaluation device when a preset event or breakpoint occurs. When the evaluation device receives the event or breakpoint occurrence confirmation message from the monitoring device, the expected result value generated when the test case is generated using the signal of the target device received from the interlocking device and the data of the memory / register received from the monitoring device at that moment. The final test results are determined by comparison with.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

It can be applied to the system to verify the target equipment.

In particular, it is advantageous to apply the system in which the target equipment is software driven and needs to be verified for internal defects.

110 ... output data storage 120 ... processing data storage
130 Evaluator 140 Simulated signal generator
150 ... Error data register 210 ... Interlock
220 ... monitoring unit 230 ... evaluation unit

Claims (11)

An output data storage unit for assigning a time tag to the output data of the target device driven by the input signal and storing the time tag in real time;
A processing data storage unit which extracts the processing data recorded in the processing memory of the target equipment at the time when the output data is output from the target equipment, assigns the time tag, and stores the processed data in real time; And
An evaluator which extracts the stored output data and the stored processing data to which the same time tag is assigned and compares them with reference data to evaluate the target equipment;
Including,
The target equipment processes the input signal via software,
And an error data recorder for simulating and writing the error data recorded in the processing memory when the software error occurs.
The method of claim 1,
Further comprising a simulation signal generator for generating a simulation signal,
And the input signal is the simulated signal.
delete The method of claim 1,
The output data storage and the processing data storage are integrally formed;
The output data and the processing data are stored together.
delete delete delete The method of claim 1,
The processing data storage unit,
An emulator connected to the target equipment for extracting and storing the processing data recorded in the processing memory; And
And an external storage unit having a storage capacity of the entire processing data stored in real time during the set verification period, and extracting and storing the processing data stored in the emulator.
A companion device for transmitting a simulation signal to a target device driven by software and storing output data of the target device due to the simulation signal;
A monitoring device for extracting and storing the processing data stored in the processing memory of the target device when the output data is output from the target device; And
An evaluation device for generating the simulation signal and transmitting the simulated signal to the companion device, and evaluating the target device by extracting output data stored in the companion device and processing data stored in the monitoring device and comparing the reference data with reference data;
Including,
And the monitoring device simulates and writes the error data recorded in the processing memory upon the software error in accordance with a request of the evaluation device and records the data in the processing memory.
delete The method of claim 9,
The evaluation device sets a breakpoint on at least one of the companion device and the monitoring device,
The device in which the break point is set generates a confirmation message and transmits a confirmation message to the evaluation device when the set break point is generated.
And the evaluation device compares output data and processing data extracted from the companion device and the monitoring device with reference data at the time point of receiving the confirmation message.

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