JPH01154247A - Diagnostic system - Google Patents

Abstract

PURPOSE:To realize the automatic test diagnosis of a diagnostic processor by providing a control interface bus where plural diagnostic processors are connected in common with each other. CONSTITUTION:When both diagnostic processors 11 and 12 are working normally, the processor 11 controls a diagnostic interface control circuit 13 via a control interface bus 103 and performs the test diagnosis of an information processor 2-i. While the processor 12 controls a diagnostic interface control circuit 14 via a control interface bus 103 and performs the test diagnosis of an information processor 3-i. If the processor 12 has a trouble and an abnormal state, the operation of the processor 12 is stopped. Then the processor 11 controls both circuits 13 and 14 via the bus 103 and performs the test diagnoses of both processors 2-i and 3-i. At the same time, the processor 11 also performs the test diagnosis of the faulty processor 12 by the test diagnostic procedure programmed previously.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a diagnostic method, and more particularly to a test diagnosis of a diagnostic device itself that controls the execution of the test diagnosis.

Conventionally, this type of diagnostic device 4 has a diagnostic processor (SVP) 41 that controls the execution of test diagnosis, as shown in FIG.
．． 42 and information processing equipment (LJN
T) 2-i [i=0. -・-, n), a diagnostic interface control circuit (DGtJ>43.
44 and diagnostic panels 45 and 46.

The diagnostic device 4 also includes disk storage devices (DKS) 15 and 16 corresponding to each of the diagnostic processors 41 and 42, and input/output devices (KB, CRT>17°18, and line 1').
The printer (LP) 19 and 20 are connected.

These diagnostic processors 41 and 42 have the same configuration, and because these diagnostic processors 41 and 42 form the core of the system and have a high failure rate, they are so-called duplexed.

The diagnostic interface control circuits 43 and 44 also have the same configuration, and are duplicated for the same reason as the diagnostic processors 41 and 42.

Diagnostic processor 41 and diagnostic interface control circuit 43
．． 44 are connected by control interfaces 111 and 112, and a control interface 121 is connected between the diagnostic processor 42 and the diagnostic interface control circuits 43 and 44.
．． 122.

The diagnostic interface control circuit 43 is connected to the information processing device 2-i by the diagnostic interface 101-1 via the interface port POi, and the diagnostic interface control circuit 44 processes information by the diagnostic interface 102-i via the interface port Pli. Device 3
-1 is connected.

The diagnostic panels 45, 46 are operated by the operator using the diagnostic processor 41.
It is provided to perform 42 test diagnosis, and is composed of switches, lamps, etc.

When both the diagnostic processors 41 and 42 are operating normally without any failure, the diagnostic processor 41 controls the diagnostic interface control circuit 43 to control the information processing device 2-i.
The diagnostic processor 42 operates to control the diagnostic interface control circuit 44 to test and diagnose the information processing device 3-1.

However, if, for example, a failure occurs in the diagnostic processor 42 and an abnormal state occurs, the diagnostic processor 42
will stop operating, and only the diagnostic processor 41 will continue operating.

In this case, both the diagnostic processor 41 and the diagnostic interface control circuits 43 and 44 are controlled to control the information processing device 2-
i, operates to perform test diagnosis of 3-i. In the diagnostic processor 42 where a failure has occurred, a test diagnosis is performed by the operator from the diagnostic panel 46.

When a failure occurs in the diagnostic processor 41, the diagnostic processor 42 performs the same processing operations as described above, and the processing operations of the diagnostic processor 41 are taken over by the diagnostic processor 42. Diagnostic processor 4 where a failure occurred
1, the operator performs a test diagnosis using the diagnostic panel 45.

In such a conventional diagnostic device 4, a diagnostic processor 41
．． Even if a failure occurs in the information processing device 2-i, 3-
The diagnostic processors 41 and 42 were duplicated so as not to interfere with the test diagnosis of i.
．． Since the test diagnosis at 712 is performed by the operator from the diagnostic panel 45.46, the accuracy and speed of the test diagnosis are inferior to those that are programmed and automated. The disadvantage is that recovery from failure is delayed.

The present invention has been made in order to eliminate the drawbacks of the conventional ones as described above, and it is possible to automatically test and diagnose a diagnostic processor, and quickly recover from a failure of the diagnostic processor. The purpose is to provide a diagnostic method that can

Structure of the Invention A diagnostic method according to the present invention is a diagnostic method in which a plurality of information processing devices are diagnosed by a plurality of diagnostic devices, and a control interface bus to which the plurality of diagnostic devices are commonly connected is provided, When one of the devices fails,
The present invention is characterized in that the diagnostic device is diagnosed by another diagnostic device via the control interface bus.

Next, one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. In the figure, a diagnostic device 1 according to an embodiment of the present invention includes a diagnostic processor (SVP) that controls execution of test diagnosis.
11.12 and information processing equipment (U
NT)2-i (i=O.

.

The diagnostic device 1 also includes a disk storage device (DKS>15.16, an input/output device (KB, CRT>17°18, and a line printer (LP) 19.20) corresponding to each of the diagnostic processors 11 and 12. It is connected.

These diagnostic processors 11, 12 and diagnostic interface control circuits 13, 14 have the same configuration as the conventional diagnostic device 4 shown in FIG. 2, and are so-called duplexed.

Diagnostic processor 11.12 and diagnostic interface control times i? 813.14 is the control interface bus 10.
Connected by 3.

The diagnostic interface control circuit 13 is connected to the information processing device 2-i by the diagnostic interface 101-1 via the interface port POi, and also has a diagnostic interface control circuit f? 81 li is the interface port section P
1i, and is connected to the information processing device 3-i by a diagnostic interface 102-i.

When both the diagnostic processors 11 and 12 are in constant operation without any failure, the diagnostic processor 11 controls the diagnostic interface control circuit 13 via the control interface bus 103 to test and diagnose the information processing device 2-i. Diagnostic processor 12 is connected to control interface bus 10.
It operates to control the diagnostic interface control circuit 14 via the information processing device 3 to test and diagnose the information processing device 3.

Here, for example, if a failure occurs in the diagnostic processor 12 and an abnormal state occurs, the diagnostic processor 12 will stop operating, and only the diagnostic processor 11 will continue to operate.

In this case, the diagnostic processor 11 connects the diagnostic interface control circuit 13.1 via the control interface bus 103 to the diagnostic interface control circuit 13.1.
4 and performs test diagnosis of the information processing devices 2-i and 3-i.

Further, the diagnostic processor 11 operates to test and diagnose the diagnostic processor 12 in which a failure has occurred via the control interface bus 103 according to a preprogrammed test and diagnosis procedure.

When a failure occurs in the diagnostic processor 11, the diagnostic processor 12 performs the same processing operations as described above.
The processing operations of the diagnostic processor 11 are taken over by the diagnostic processor 12, and the diagnostic processor 12 operates to test and diagnose the diagnostic processor 11 in which a failure has occurred via the control interface bus 103.

In this way, each of the duplicated diagnostic processors 11 and 12 is connected in common by the control interface bus 103, and when a failure occurs in one of the diagnostic processors 11 and 12, the control interface bus 103 is connected by the other diagnostic processor 12 and 11. By directly testing and diagnosing the diagnostic processor 11.12 in which a failure has occurred, it is possible to automatically test and diagnose the diagnostic processor 11.12 in which a failure has occurred. Therefore, recovery from a failure in the diagnostic processors 11 and 12 can be quickly performed.

DETAILED DESCRIPTION OF THE INVENTION According to the present invention, diagnostic devices for diagnosing a plurality of information processing devices are commonly connected by a control interface bus, and when a failure occurs in one of the diagnostic devices, By diagnosing the device with another diagnostic device via this control interface bus, the test diagnosis of the diagnostic processor can be automatically performed, and a failure of the diagnostic processor can be quickly recovered. effective.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention, and FIG. 2 is a block diagram showing the configuration of a conventional example. Explanation of symbols of main parts 1...Diagnostic devices 2-1 to 2-n.

Claims (1)

[Claims] A diagnostic method in which diagnosis of a plurality of information processing devices is performed by a plurality of diagnostic devices, a control interface bus is provided to which the plurality of diagnostic devices are commonly connected, and when a failure occurs in one of the diagnostic devices. . A diagnostic method, characterized in that the diagnostic device is diagnosed by another diagnostic device via the control interface bus.