JPS63213039A - Fault analysis system for diagnosing device - Google Patents

Abstract

PURPOSE:To reduce the load of a diagnosing device and at the same time to obtain the fault analyzing result with a simple operation, by collecting the fault information when a fault occurs and analyzing the fault when a display request is received. CONSTITUTION:A fault information collecting means 20 collects immediately the fault information via the diagnosis interfaces 3-1-3-n based on the fault detecting reports given from the hardware fault detecting circuit 2-1-2-n of the processors 1-1-1-n and stores these collected information into a fault information storing means 30. When a display request is received from a system operator, a fault information display control means 40 starts a fault analysis control means 50 and a fault information display means 70. The means 50 controls a fault analyzing means 60 and this means 60 analyzes the fault based on the fault information stored in the means 30 and stores the result of the fault analysis into the means 30. The means 70 displays said analysis result and the fault information stored in the means 30 on a display device. As a result, the processing load of a diagnosing device can be reduced at a time point right after a fault occurs and the operator's operation is simplified.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a fault analysis method for a diagnostic device that performs fault analysis in an electronic computer system including a plurality of processing units.

[Conventional technology]

Conventionally, in a computer system including multiple processing units such as an arithmetic processing unit, a main storage unit, and an input/output processing unit, hardware failure detection means is used to detect hardware failures at various locations within each processing unit. is provided, and when each hardware failure detection means detects a hardware failure, it adds a failure detection report to the diagnostic device. and,
The diagnostic device to which a fault detection report has been added from the hardware fault detection means collects fault information corresponding to the fault detection report and stores it in the fault information storage means every time a fault detection report is added, and after storing the fault information, Fault analysis is performed immediately or based on the fault information stored in the fault information storage means at the time when a fault analysis request is made by the operator.

[Problem that the invention seeks to solve]

When a failure occurs in a processing device, the diagnostic device must quickly perform failure response processes such as collecting failure information and disconnecting the failed processing device (fault processing device) within a limited time. In the conventional method, which performs fault analysis immediately after collecting fault information, fault analysis is performed at the same time as fault response processing, which poses a problem of increasing the load on the diagnostic equipment when a fault occurs. . Further, according to a method in which failure analysis is performed at the time when a failure analysis request is made by an operator, it is possible to reduce the load on the diagnostic device when a failure occurs, but there are the following problems. In other words, in this conventional method, fault analysis is performed by the operator adding a fault analysis request to the diagnostic device, so before adding the fault analysis request, the operator must Even if a display request is made to the diagnostic device, the failure analysis results cannot be referenced. Therefore, when referring to the failure analysis results, the operator must give a failure analysis request in advance and then add a display request to the diagnostic device. However, there is a problem in that the operation becomes troublesome.

The present invention solves the above-mentioned problems, and its purpose is to reduce the load on a diagnostic device when a failure occurs and to enable failure analysis results to be obtained with simple operations.

[Means for solving problems]

In order to solve the above-mentioned problems, the present invention provides a failure analysis method for a diagnostic device connected to a plurality of processing devices via a diagnostic interface, in which each of the plurality of processing devices detects its own hardware failure. and includes hardware failure detection means for applying a failure detection report to the diagnostic device via the diagnostic interface, and the diagnostic device outputs the failure detection report by receiving the failure detection report from the hardware failure detection means. fault information collecting means for collecting fault information from the processing device including the hardware fault detecting means through the diagnostic interface and storing the collected fault information in the fault information storage means; a failure analysis means for performing a failure analysis based on the failure information stored in the failure information storage means; and a display means; By doing so, a failure analysis is performed based on the failure information stored in the failure information storage means, and the display means displays the analysis result of the failure analysis means and the general failure information together.

[For production]

Collection of failure information is performed immediately upon occurrence of a failure, but failure analysis is performed when the means receives a display request. Therefore, it is possible to ease the processing of the diagnostic device when a failure occurs.

Furthermore, by adding a display request, the failure information is analyzed and the analysis results and general failure information are displayed, so that the operator's operations can be simplified.

〔Example〕

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

FIG. 1 is a block diagram of an embodiment of the present invention.
Processing devices 1-1 to l-n are connected. Each of the processing units 1-1 to 1-n includes hardware failure detection circuits 2-1 to 2-n that detect hardware failures, and each of the hardware failure detection circuits 2-1 to 2-n is configured to detect hardware failures. If a failure is detected, the diagnostic interface 3-1 to 3
A fault detection report is added to the diagnostic device 10 via -n.

The diagnostic device 10 includes hardware failure detection circuits 2-1 to 2-
By adding the fault detection report from n, fault information is collected from the processing device including the hardware fault detection circuit that outputs the fault report via the diagnostic interfaces 3-1 to 3-n, and is stored in the fault information storage means 30. It has a failure information collection means 20 for storing failure information and areas corresponding to each of the processing devices 1-1 to l-n.

A failure information storage means 30 stores failure analysis results and a failure analysis flag indicating whether or not the failure analysis has been completed, and general failure information (for example, failure information number) is stored from the operator of the computer system, the remote maintenance center, etc. and device type) and a failure analysis result display request, the failure information display control means 40 and failure analysis means 60 start up the failure analysis control means 50 and the failure information display means 70.
A failure analysis control means 50 that controls the failure analysis control means 50 and a failure analysis control means 50 that performs failure analysis (pointing out the failure part, etc.) based on the failure information stored in the failure information storage means 30 and stores the failure analysis results in the failure information storage means 30. It includes an analysis means 60 and a failure information display means 70 that displays failure information and failure analysis results on a display device of the computer system.

FIG. 2 is an explanatory diagram of the operation of FIG. 1, and the operation of FIG. 1 will be explained below with reference to the same figure.

When the hardware failure detection circuits 2-1 to 2-n in each processing device 1-1 to l-n detect a hardware failure in the processing bag W1-1 to 1-n, they send a failure detection report to the diagnostic interface 3-n. 1 to 3-n to the fault information collection means 20 in the diagnostic device 10.

When a failure detection report is added to the failure information collection means 20,
Fault information is collected from the fault processing device including the hardware fault detection circuit that outputs the fault detection report, and the collected fault information is stored in the area of the fault information storage means 30 corresponding to the fault processing device. At this time, the fault information collection means 20 also stores the fault information number and a fault analysis completion flag indicating that the fault analysis has not been completed. The above-described processing is performed every time a failure detection report is added from the hardware failure detection circuits 2-1 to 2-n, and the failure information is sequentially stored in the failure information storage means 30.

When an operator, a remote maintenance center, etc. wants to obtain general fault information and fault analysis results for fault information, they send a display request to the fault information display control means 40. In this case, if you want to obtain summary failure information and failure analysis results for specific failure information of the processing device, a display request including the device number of the processing device and the failure information number of the specific failure information is sent to the failure information display control. In addition to the means 40, if general failure information and failure analysis results are to be obtained for all failure information of a processing device, a display request including only the device number of the processing device is sent to the failure information display control means 40.

Now, for example, if a display request is made that includes i as the device number and j as the fault information number, the fault information display control means 40 will cause the fault information display means 70 to display the device number i.
, a display request including the fault information number j is added, and an analysis request including the device number i and the fault information number j is added to the fault analysis control means 50. When the above display request is added, the fault information display means 70 displays a fault information number, a fault analysis end flag,
Search the area corresponding to the processing device with device number i in the failure information storage means 30 where the failure analysis results and failure information are stored as shown in FIG. 2, and if failure information corresponding to failure information number j exists, The device number i and failure information number j are displayed on a display device such as a CRT (not shown). In addition, in FIG. 2, the failure information storage means 30 shows only an area corresponding to one processing device.

Further, when the above-mentioned analysis request is added, the fault information analysis control means 50 searches the area corresponding to the processing device with the device number i in the fault information storage means 30, finds the fault information with the fault information number j, and detects the fault. It is determined whether the failure analysis has already been completed by checking the failure analysis completion flag stored together with the information. When it is determined that the failure analysis has been completed, that is, when the failure analysis completion flag is "1", the failure analysis result corresponding to the failure information number j is extracted and delivered to the failure information display means 70, and the failure analysis is completed. If it is determined that the fault analysis end flag is not "10", an analysis request including the device number i and the fault information number j is sent to the fault analysis means 60. When the fault analysis means 60 receives the above analysis request, it analyzes the fault information with the fault information number j stored in the area corresponding to the processing device with the device number i, stores the fault analysis result in the fault storage means 30, and The failure analysis result is delivered to the failure information display means 70. Also, at this time, the failure analysis means 60 sets the failure analysis completion flag to "1" to indicate that the failure analysis has been completed. Failure information display means 70
When the failure analysis result is added, it is displayed on a display device such as a CRT in association with the above-mentioned general failure information. That is, the summary fault information of the fault information with fault information number j and the fault analysis results are displayed together on the display device.

When a display request is made that includes the device number of the processing device and the failure information number of the failure information, the above-mentioned processing is performed, and the summary failure information and failure analysis results of the specified failure information are displayed. When a display request containing only a number is added, the following processing is performed.

Now, for example, if a display request including k as the device number is applied to the fault information display control means 40, the fault information display control means 40 adds a display request including the device number k to the fault information display means 70, and the device number An analysis request including k is applied to the failure analysis control means 50. Fault information display means 7
0 indicates the failure information storage means 3 when the above display request is added.
The area corresponding to the processing device to which k is given as the device number 0 is searched, and the failure information number and device number k corresponding to all the failure information stored in this area are displayed on the display device.

Further, when the above-mentioned analysis request is added, the failure analysis control means 50 searches the area corresponding to the processing device to which k is given as the device number of the failure/damage information storage means 30, and stores the area together with the failure information. Find the fault information whose fault analysis completion flag indicates that the analysis has not been completed, and enter the fault information number of the found fault information (in this case, for example, 11m
) and the device number k to the failure analysis means 60. When the fault analysis means 60 receives the above analysis request, the fault analysis means 60 reads the fault information number! ! , After analyzing the fault information corresponding to m and storing the analysis result in the fault storage means 30, the fault analysis information stored in the area corresponding to the processing device to which the device number k is given in the fault storage means 30 is analyzed. All of them are handed over to the fault display means 70. At this time, as described above, the failure analysis means 60 sets the failure analysis completion flag corresponding to the failure information for which failure analysis has been completed to "1" to indicate that the failure analysis has been completed. When the failure analysis result is added, the failure information display means 70 displays it on a display device such as a CRT. That is,
The display device displays all the summary failure information and failure analysis results corresponding to the processing device assigned the device number k.

Incidentally, in the embodiment described above, the failure information display means 70
Although the output is displayed on a display device such as a CRT, it is of course possible to transfer the output to a maintenance center or the like via a communication line and display it on the display device there.

〔Effect of the invention〕

As explained above, in the present invention, the failure information display control means 40 etc. performs failure analysis when the means receives a display request, and displays the failure analysis result and general failure information together. Therefore, it is possible to ease the processing of the diagnostic device immediately after a failure occurs, and there is an effect that the operation by the operator can be simplified.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a block diagram of an embodiment of the present invention.
It is an explanatory diagram of the operation of the figure. In the figure, 1-1 to 1-n...processing devices, 2-1 to
2-n...Hardware failure detection circuit, 3-1 to 3-
n...Diagnostic interface, 10...Diagnostic device, 2
0... Fault information collection means, 30... Fault information storage means, 40... Fault information display control means, 50... Fault analysis control means, 60... Fault analysis means, 70... Fault Information display means.

Claims (1)

[Claims] In a failure analysis method for a diagnostic device connected to a plurality of processing devices via a diagnostic interface, each of the plurality of processing devices detects its own hardware failure and sends a failure detection report to the The diagnostic device includes a hardware failure detection means that is added to the diagnostic device via a diagnostic interface, and upon receiving the failure detection report from the hardware failure detection device, the diagnostic device detects the hardware failure detection device that outputs the failure detection report. a fault information collecting means for collecting fault information from a processing device including the diagnostic interface and storing the collected fault information in a fault information storage means; an accepting means for accepting a display request from an external device; and the fault information storing means. a failure analysis means for performing a failure analysis based on failure information stored in the failure information storing means; and a display means, the failure analysis means detecting the failure information stored in the failure information storage means when the accepting means receives a display request. 1. A fault analysis method for a diagnostic device, characterized in that a fault analysis is performed based on fault information provided by the fault analyzer, and the display means displays both the analysis result of the fault analysis means and the general fault information.