JPS62221741A - System test system - Google Patents

Abstract

PURPOSE:To obtain an overall system test system with high performance and high quality by supplying the main memory image of a front end computer to a system test device via a network to perform the system test of said computer through the system test device and therefore attaining a satisfactory system test in a computer room. CONSTITUTION:When a system test is carried out with a front end computer 4, a system test device 5 supplies the main memory image of the computer 4 via a network 3. In other words, a host computer 1 receives a CPU number from the device 5 and sends the main memory image of the CPU number designated out of an external memory device 2 not to the computer 4 but to the device 5. As a result, the software constitution of the device 5 is exactly equal to that of a front end processor of the computer 4 having the designated CPU number.

Description

DETAILED DESCRIPTION OF THE INVENTION [Prior Art] The present invention relates to a system testing device that provides testing means for a front-end computer that can autonomously perform jli control of each piece of equipment in a steel plant, for example.

[Industrial application field]

FIG. 2 shows an example of the configuration of a distributed compound computer system, which can be found in either the conventional hierarchical type or the recent balanced type. In FIG. 2, the conventional hierarchical distributed composite S1 computer system has the following functions 111. That is, 1 is a host computer for general control that performs tracking control and information management of preparations in a steel plant, for example, and 4 is a host computer that only handles input/output signals from processes and input/output processing of peripheral equipment installed in each operating room. The front end is a relatively small terminal front end computer. Since the latter front-end computer 4 is installed in each driver's cab, it is not allowed to have an external storage device 4a that is a rotating body from the viewpoint of system reliability, and the external storage device 4a connected to the host computer n,1 is A method is adopted in which an image of the main memory is held in the storage device 2, and the image is sent to the front-end old computer 4 via a network such as a data way transmission device 3 in an industrial computer. There is.

The concept of program loading of this front-end computer 4 is the same for both the one-layer type and the balanced type, but the program to be loaded has undergone a qualitative change.

In the conventional technology, due to the limitations of the CPU capacity and main memory size of the front-end processor of the front-end computer 4, the role of the front-end processor is as the limbs of the host computer 1, and the I10 of the processes and peripheral devices.
Functional independence from host calculation a1 could not be achieved by merely performing processing or primary processing of some process data. This is why it is called hierarchical. However, in recent years, due to rapid advances in microelectronic technology, the processing power of the front-end processor of the front-end computer 4 has been significantly improved.

Utilizing these powerful processors, it is now possible to construct a distributed multicomponent computer system that consists of front-end processors with no hierarchical relationship between the host and the front-end, allowing functional distribution that could not be achieved with a hierarchical system.

It has become possible to realize risk dispersion.

Although it is a balanced distributed multicomponent computer system with improved functionality, due to functional isolation from the host computer and increased functionality, newly developed software that did not pose problems with hierarchical distributed multicomponent computer systems. Problems with the maintenance support environment became apparent.

In a hierarchical distributed multicomponent computer system, as shown in Figure 3, the application software test environment in the test mode can be constructed in the computer room using the distributed processing Zaport Bassocage software without affecting the application software. Met.

On the other hand, in a balanced distributed multicomponent computer system, there is no hierarchical relationship between computers, and they are at a single level, and application software is also distributed and constructed on each computer. FIG. 4 shows the software configuration of the balanced distributed compound computer system.

[Problem that the invention seeks to solve]

As can be seen from the configuration shown in Figure 4, the application software was not centralized on the host computer, so it was not possible to test the application software for the front-end processor in the computer room.

° The present invention was made to enable functionally improved software development and maintenance support for front-end computers in a balanced distributed multicomponent computer system. The purpose is to obtain system test equipment for

[Means for solving problems]

For this reason, the system test method according to the present invention provides a system test device 5 connected to the network 3 and equipped with at least one input/output device, and when performing a system test on the front-end computer 4, the system test The main memory image of the front-end computer 4 that performs the above is introduced into the system testing device 5 via the network 3, and the system testing device 5 performs a system test of the front-end computer 4. It is.

Further, a system testing method according to another invention includes a system console 6 for communicating with the host computer 1, and a system testing device 5 connected to the network 3 and equipped with at least one input/output device. , when performing a system test on the front-end computer 4, the main memory image of the front-end computer 4 on which the system test is to be performed is transferred to the system test device 5 via the network 3.
and by rewriting the peripheral device correspondence table of the operating system built for the front-end calculation 64 using the system J and the console 6.
, the testing device 5 performs a Sisler point test on the front-end computer 4.

C Effect] When performing a system test of the front-end computer '1J4m4, the system test device 5 according to the present invention introduces the main memory image of the front-end computer 4 that performs the system test via the network H3.

Then, the software configuration on the system testing device 5 is made the same as that of the front-end computer 4, and a system test of the front-end computer 4 is performed in the computer room.

At this time, since the configuration of peripheral devices such as input devices or output devices may be different, the front-end computer 4 that performs the test using the system console 6 according to another invention
This is done by rewriting the peripheral device compatibility table of the operating system.

〔Example〕

An embodiment of the present invention will be described below based on the drawings.

FIG. 1 is an example of the overall configuration of a system including a system testing device of the present invention. In FIG. 1, ■ is a supervising computer that performs transmission processing with host computers and program development, and 2 is a boss 1 to 2 of the host computer 1 and front-end computer 4. 3 is a network network such as a data way device in an industrial computer that connects the host and front-end processor; 4 is the number of devices depending on the scale of the process; The functionally autonomous front-end computer 5, which individually performs one integrated process control 9 peripheral device input/output processing, etc., is connected to the network 3. 2; A system console for conversations between computers and computer engineers.

Here, the system testing device 5 is equipped with one input/output device such as a typewriter device or a CRT device as a basic input/output device so that each front end processor 4 can be simulated.

Next, the operation will be explained.

During normal online operation, the host computer ml selects the main memory image constructed for each front-end processor of each front-end computer 4 from the external storage device 2 and sends it to the corresponding front-end computer 4.

The system testing device introduced in the present invention transmits the CPU number of the front-end computer 4 that it wants to simulate to the computer 1 to the host 1. The main test computer 1 receives the CPU number from the system test device 5 and transfers the main memory image of the specified CPU number from the external storage device 2 to the system test device rather than to the original front-end computer 4. Send to.

Through this procedure, the software configuration on the system test device becomes exactly the same as the front-end processor of the front-end computer 4 having the designated CPU number.

Therefore, if the physical hardware such as input/output devices is the same, the system test device described in 1. can be used to perform a system test on a front-end computer.

However, in an actual system test, since the configurations of peripheral devices such as input/output devices connected to the system test equipment 5 and the front-end computer 4 are different, the CPU specified using the system console 6 of the host computer 1 Rewrite the peripheral device correspondence table of the operating system (abbreviated O3) built for the number front-end processor. In this way, for example, three CRTs and two type-like devices are connected to the front-end computer 1, and each CRT is connected to the system test device.
Even when trying to simulate this using an RT or typewriter device, the system test can be performed without changing the application software. Also, within the network, the front-end computer can of course communicate with other computers.

〔Effect of the invention〕

As explained above, your invention connects to a network, and (1) provides a system 1 and a test device each having at least one input/output device, and performs a system test when performing a system test on a front-end computer. The main memory image of the L1 computer 1d1 computer is transferred to the network N
■ Introduce it to the above system testing equipment via d, and use the system testing equipment described in -
Since the system was configured to perform tests, it was possible to fully perform system tests within the computer room, while realizing functional dispersion and risk of failure in a distributed complex old computer system.
As a whole system, one with excellent performance and quality can be obtained.

In addition, in addition to the invention described in J-1-14, a second system console is provided for communicating with the host computer, and the system console is used to support peripheral devices of the operating system built for the front-end computer. Since the table is rewritten, there is an effect that system testing of the front-end computer can be performed on the system test equipment even if the configuration of the peripheral equipment is different.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a block diagram of a conventional tB! FIG. 3 is a diagram showing an example of the software configuration of a hierarchical distributed compound computer, and FIG. 4 is a diagram showing an example of the software configuration of a balanced distributed compound computer. 1...Boss I/computer, 2...External storage device, 3.
...Network, 4...Front-end computer,
5... System test equipment, 6... System console. Agent Masu Oiwa A (and 2 others) Procedural amendment (voluntary) 1. Display of the case: Japanese Patent Application No. 61-65202 2, Name of the invention system test method 3, Representative of the person making the amendment Moriya Shiki 5, Detailed explanation of the invention to be amended, Column for a brief explanation of the drawings. 6. Contents of the amendment (1) On page 5, line 9 of the specification, the phrase "this is a hierarchical type" is amended to read "this is a hierarchical type." (2) Page 6, line 9 of the same book: “----in one”
``In r---------,'' is corrected. (3) In the 5th and 6th lines of page 8 of the same book, the phrase ``operatoring'' has been corrected to read ``1 operating''. (4) In the same book, page 9, line 19, and page 12, lines 12 to 13, "front end" is corrected to "front end." (5) The same book, page 9, lines 19 to 20, “Calculator 5
``is'' is corrected to ``calculator, 5 is''. (6) In the same book, page 13, line 6, the phrase ``effects that can be done'' has been amended to read ``one effect that can be implemented''. (7) In the same book, page 13, line 9, the phrase "distributed compound computer" is corrected to read "hierarchical distributed compound computer."that's all

Claims (2)

[Claims] (1) In a system test method for a balanced distributed compound computer in which a system test of application software of a front-end computer is performed on a balanced distributed compound computer in which a host computer and a balanced distributed front-end computer are connected via a network. , If a system test equipment connected to the above network and equipped with at least one input/output device is installed and a system test is performed on the above front-end computer, the main memory image of the front-end computer undergoing the system test is A system testing method characterized in that the system testing device is introduced into the system testing device via a network, and the system testing device performs a system test on a front-end computer. (2) In a system test method for a balanced distributed compound computer in which a system test of front-end computer application software is performed on a balanced distributed compound computer in which a host computer and a balanced distributed front-end computer are connected via a network. , when performing a system test of the front-end computer by providing a system console for communicating with the host computer, and a system test device connected to the network and equipped with at least one input/output device, The main memory image of the front-end computer on which the system test is to be performed is introduced into the system test equipment via the network, and the peripheral device correspondence table of the operating system built for the front-end computer is created using the system console. A system testing method characterized by performing a system test on a front-end computer on the system testing device by rewriting the system.