JPH08331247A - System for controlling restart at the time of serious fault in exchange - Google Patents

Abstract

PURPOSE: To improve the reliability of an exchange by shortening the standstill time of call processing by shortening restart processing time when any serious fault occurs in the exchange. CONSTITUTION: Plural call processing processors 101 and 102 back up latest files in a file storage device 105 at fixed time everyday and after the end of backup, the latest files are loaded to a standby call processing processor 107. When any serious fault occurs in an exchange 100, the standby call processing processor 107 is switched to an active system and the memory of the standby call processing processor 107 is started again. Afterwards, the latest files are respectively loaded from the file storage device 105 to the working duplex call processing processors 101 and 102, the call processing processor 101 working in the active system is switched to the standby call processing processor, and the call processing processor 102 working in a standby system is operated in the standby system.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a restart control system for an exchange that loads the latest file into a call processor and restarts the system memory when a serious failure occurs.

[0002]

2. Description of the Related Art Conventionally, a restart control system for an exchange in the event of a serious failure is to backup a latest file from a call processor to a file storage device at a fixed time every day.
In the severe failure of the exchange, after the latest file is temporarily loaded from the file storage device to the common processor, each call processor individually reads the file of its own call processor from the common processor and restarts the system memory.

An example of this type of exchange restart control system is described in Japanese Patent Application Laid-Open No. 3-171959. FIG.
FIG. 6 is a block diagram showing a main part of a hardware configuration of an exchange, for explaining a conventional exchange restart control system described in the publication.

A plurality of duplexed call processors (101, 102), (201, 202) of the exchange are connected to a common processor via a system bus 104, and a file storage device 105 is coupled to an integrated bus 106. ing. Furthermore, the system bus 104 and the integrated bus 106 are connected to the maintenance operation processor 103. The maintenance and operation processor 103 manages the call processor, trouble handling, and maintenance and operation control, as well as communication control between each device.

During normal times, the call processor 10 is controlled by the maintenance and operation processor 103 at a fixed time every day.
The latest file from 1, 201 is the file storage device 105.
Backed up to. In the event of a severe failure of the exchange, the maintenance processor 103 controls the call processor 101, 102 after the latest file is temporarily loaded from the file storage device 105 to the common processor 108.
And 201 and 202 respectively read the file of the own processor from the common processor 108 and restart the system memory.

[0006]

In the above-mentioned conventional restart control method, the latest file is backed up from the call processor to the file storage device at a fixed time every day, and the latest file is stored from the file storage device in the event of a serious failure of the exchange. After being temporarily loaded in the common processor, each call processor reads the file of its own processor and restarts the memory of the system.
It takes time to load a file from 5 to the call processing processor via the common processor, and as a result, it takes time for the system to restart the memory and the switch may stop for a long time. There is a problem.

An object of the present invention is to shorten the restart processing time in the event of a serious failure of the exchange, thereby shortening the call processing suspension time and improving the reliability of the exchange.

[0008]

SUMMARY OF THE INVENTION According to the present invention, there is provided a restart control method at the time of a serious failure of an exchange, in which a dual call control processor of the exchange has the same function as a call processor constituting the call control processor. In combination with the third call processing processor, the file for the latest call control processing loaded in each call control processing device is stored in the backup memory at regular intervals during normal operation. Upon completion of the accumulation, the latest file is loaded into the third call processing processor, the third call processing processor is designated as a standby call processing processor, the processor is instructed to wait, and the backup of the latest file is performed. The storage of the latest file to the standby call processing processor, and the standby instruction to the standby call processing processor. Repeated at regular intervals, when a severe failure occurs, the standby call processor is switched to the new active call processor of the call control processor to restart the memory, and the active and standby call processing of the call control processor before the serious failure occurs. The latest file is loaded from the backup memory into each call processor that was operating as a processor, and one of the call processors that was operating as the active and standby call processors before the serious failure is loaded. Switch to the new standby call processor and switch the other to the new standby call processor.

It is desirable to switch the call processors that were operating as the active and standby call processors before the severe failure to the new standby call processor and the new standby call processor, respectively, after the serious failure.

A restart control system for a severe failure of an exchange according to the present invention includes a dual call control processor for performing call control and a backup file for call control loaded in the call control processor. Every predetermined time,
A restart control system for a severe failure in an exchange having a file storage device for reading the latest file of each call control processing device and a maintenance operation processor for managing the call control processing device, fault handling, and maintenance operation control. A third call processing having the same function as that of each of the first and second call processing processors, which are combined with the respective call control processing apparatuses and operate as an active system call processing processor and a standby system call processing processor of the call control processing apparatus. In normal times, the maintenance operation processor stores the latest call control processing file loaded in each call control processing device in the backup memory at regular time intervals and stores the latest file. At the same time as the end of the storage of the call, the latest file is loaded into the third call processing processor, and the third call processing processor The processor is instructed to wait by designating it as a processor, storing the latest file in the backup memory, loading the latest file into the standby call processing processor, and waiting for the standby call processing processor. The control for repeating the instruction and the instruction at regular intervals is executed, and when a serious failure occurs, the standby call processing processor is switched to the new active call processing processor of the call control processing apparatus to restart the memory, and the call control processing apparatus before the serious failure occurs. One of the first and second call processors by loading the latest file from the backup memory into the first and second call processors that have been operating as the active call processor and the standby call processor, respectively. Is switched to the new standby call processor and the other is switched to the new standby call processor.

[0011]

Since the latest file is loaded in advance in the standby call processing processor, the call processing can be restarted only by switching the standby call processing processor to the call processing processor in the event of a serious failure of the exchange. As a result, it is possible to shorten the time required for the call control processing device to restart the memory after a serious failure occurs.

[0012]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 1 is a block diagram of a main part of an exchange to which a restart control system for a severe failure of the exchange of the present invention is applied, and FIG. 2 is a time chart for explaining an operation operation of each part of the apparatus of FIG. It is a chart.

The plurality of duplexed call control processing devices 1 and 2 of the exchange 100 respectively include call processing processors (10).
1, 102), (201, 202),
The call control processor 1 is combined with the standby call processor 107 to form a call control processing unit.
Is also combined with the standby call processing processor 207 to form one call control processing unit. The standby call processing processor 107 has the same structure and function as the call processing processors 101 and 102 that form the duplex call control processing device. Similarly, the stand-by call processor 207 is a call processor 201, 20 that constitutes a dual call control processor.
2 has the same structure and function. The call control processors 1 and 2 and the standby call processors 107 and 207 are connected to each other via the system bus 104. In the file storage device 105, the file for the latest call control processing loaded in the call control processing devices 1 and 2 is stored in the file storage device 105 at regular intervals, and the file is backed up. File storage device 105 is integrated bus 1
It is connected to 06. Further, as in FIG. 3, the system bus 104 and the integrated bus 106 are the maintenance operation processor 10
It is connected to 3. The maintenance operation processor 103 executes management of the call control processing devices 1 and 2, failure processing, and maintenance operation control.

Next, the operation of the present invention will be described with reference to FIGS. In the following description, the operations of the call processing processors (201, 202) and the standby call processing processor 207 are the same as the operations of the call processing processors (101, 102) and the standby call processing processor 107, so the description thereof will be omitted. . The maintenance operation processor 103 includes call processing processors (101, 102) and standby call processing processor 10.
7 and the operation of the file device 105 are controlled as follows.

In normal times, the latest call control processing file loaded in each call control processing device 1 is accumulated in the file accumulating device 103 at regular intervals, and at the same time as the accumulation of the latest file is completed. The latest file is loaded into the standby call processing processor 107. Next, the maintenance operation processor 103 instructs the standby call processing processor to stand by. File storage device 1 for this latest file
The storage in 05, the loading of the latest file into the standby call processing processor 107, and the standby instruction to the standby call processing processor 107 are repeated every fixed time.
The maintenance operation processor 103 transmits a switching instruction to the standby call processing processor 107 at the time of a serious failure, switches the standby call processing processor 107 to the new operation system call processing processor of the call control processing device 1, and restarts the memory, and then operates. The latest files are loaded from the file storage device 105 into the duplicated call processors 101 and 102, respectively. The maintenance operation processor 103 further includes the call processing processor 10 that was operating in the operation system before the serious failure.
1 to the standby call processing processor by sending a standby instruction to the call processing processor 1 that was operating in the standby system
A standby system instruction is sent to 02 to operate in the standby system. As a result, after this serious failure, the call processors 107, 10
2 constitutes a dual system, and the call processor 101 operates as a standby call processor.

Although this embodiment is an example in the case of two call control processing devices, it is obvious that the present invention can be applied regardless of the number of call control processing devices.

[0018]

As described above, according to the present invention, by switching the call processing processor that performs call processing to a standby call processing processor at the time of a severe failure of the exchange and restarting the system memory, the call processing is performed via the common processor. Eliminates the need to load the latest file into the processor
As a result, the downtime of the call processing can be shortened, and the reliability can be improved.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a main part of an exchange to which a restart method at the time of a severe failure of the exchange according to the present invention is applied.

FIG. 2 is a time chart for explaining an operation operation of each unit of the apparatus of FIG.

FIG. 3 is a view for explaining a conventional exchange restart control system,
It is a block diagram which shows the principal part of the hardware constitutions of an exchange.

[Explanation of symbols]

 1 Call Control Processor 2 Call Control Processor 100 Switch 101 Call Processor 102 Call Processor 201 Call Processor 202 Call Processor 103 Maintenance Processor 104 System Bus 105 File Storage Device 106 Integrated Bus 107 Standby Call Processor 207 Standby Call Processor 108 Common processor

Claims (5)

[Claims] 1. A dual call control processor of an exchange is combined with a third call processor having the same function as a call processor constituting the call control processor, and each call control processor in normal operation. The latest call control processing file loaded in is stored in the backup memory at regular time intervals, and at the same time as the storage of the latest file ends, the latest file is loaded into the third call processing processor. , A third call processor is designated as a standby call processor, and the processor is instructed to wait,
Accumulation of the latest file in the backup memory, loading of the latest file into the standby call processing processor, and standby instruction to the standby call processing processor are repeated at regular time intervals. , The standby call processor is switched to the new active call processor of the call control processor to restart the memory, and each call that was operating as the active and standby call processor of the call control processor before the serious failure The latest file is loaded from the backup memory to the processing processor, and one of the call processing processors that was operating as the active and standby call processing processors before the serious failure is switched to the new standby call processing processor,
A restart control method in the event of a severe failure of the exchange, in which the other is switched to the new standby call processor. 2. A call processor that has been operating as an active call processor and a standby call processor before the severe failure is switched to a new standby call processor and a new standby call processor after the serious failure, respectively. The method according to 1. 3. A backup of the duplexed call control processing device for performing call control and the call control file loaded in the call control processing device, so as to back up each call control processing device at a predetermined time interval. In the restart control system at the time of severe failure in the exchange having the file storage device from which the file of the above is read and the maintenance operation processor for managing the call control processing device, fault handling, and maintenance operation control, each call control processing device is combined. And a third call processor having the same function as that of the first and second call processors operating as the active call processor and the standby call processor of the call control processor, respectively. During normal times, backup the latest call control processing files loaded in each call control processing device at regular intervals. And stores the latest file in the memory for use, loads the latest file to the third call processor at the same time as the end of the accumulation of the latest file, and designates the third call processor as the standby call processor, and waits in the processor. Instruct
Execution of control for repeating the storage of the latest file in the backup memory, the loading of the latest file into the standby call processing processor, and the standby instruction to the standby call processing processor at the fixed time intervals. During a severe failure, the standby call processor is switched to the new active call processor of the call control processor to restart the memory, and it operates as the active and standby call processor of the call control processor before the serious failure. The latest file is loaded from the backup memory into the first and second call processors, respectively, one of the first and second call processors is switched to the new standby call processor, and the other is newly reserved. A restart control system in the event of a severe failure of a switch, characterized by executing control for switching to a system call processor. 4. A new standby call processing processor and a new standby system call processor, respectively, after the first and second call processors that were operating as active and standby call processors before the severe failure, respectively. 4. The restart control system according to claim 3, wherein the restart control system switches to a processing processor. 5. An electronic exchange having the restart control system according to claim 3.