JPH06152570A - System for system switching processing in duplex data processor - Google Patents

Abstract

PURPOSE:To provide a system for system switching processing capable of processing nearly normal data, with respect to the system for switching processing in a duplexe data processor. CONSTITUTION:Processors 1 and 2 become active or stand-by systems by being switched according to status information showing the state of the opposite processor transmitted through an inter-system link 3. The data taken at the same time from plural lines are processed and transmitted from the active processor. A data transmitter 4 is provided on the inter-system link 3 so as to transmit data between the processors. When the stand-by processor is in a stand-by support state, the support data are transmitted through the data transmitter 4 to the active processor. Thus, instead of data which can not be inputted normally to the active processor, the data inputted to the stand-by processor are sent from the active processor without switching systems.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system switching processing method in a duplicated data processing device, and more particularly, in a duplicated data processing device in which only the device that has become the active system transmits data. The present invention relates to a system switching processing method capable of processing and reducing the frequency of system switching.

In computer systems in recent years, especially in highly public social systems such as electric power, gas and water, high reliability such as non-stop operation and high data accuracy is required.

Therefore, when these devices are duplicated to improve the reliability, a system switching function that maximizes the features of the duplicated device is provided in order to improve the reliability. Is required.

[0004]

2. Description of the Related Art FIG. 5 shows a configuration of a conventional duplex system, in which 10 and 20 are central processing units (CP).
U) and the like, which are an active system and a standby system. Reference numeral 30 is an intersystem link connecting the both processing devices 10 and 20. Further, in the processing device 10, 11 and 12 are input line processing units, and 13 is a transmission unit. Further, in the processing device 20, 21 and 22 are input line processing units, and 23 is a transmission unit.

In the duplex system shown in FIG. 5, a plurality of lines 1 to n are respectively branched and both processing units 1 are connected.
0 and 20 are connected in parallel so that data from each line is simultaneously taken in, and in the active system, the transmission unit performs a predetermined process on the data from a plurality of lines, for example, forms a packet and sends it out. Is configured.

At this time, both processing devices 10 and 20 send status information indicating the status of their respective devices via the intersystem link 30, and by comparing the statuses of the self device and the partner device, normal processing is performed. The processing device that is operating becomes the active system, performs the required processing, and transmits the data.

In FIG. 5, assuming that the input line processing unit 12 for the line 2 in the processing unit 10 is abnormal and the input line processing unit for the lines 3 to n is abnormal in the processing unit 20, the processing unit 10 is assumed to be abnormal. Operates as the active system. In this state, the processing device 10 performs processing in the transmission unit 13 using only the data of the line 1 input via the input line processing unit 11 and creates transmission data by regarding the data of the line 2 as abnormal data. To send.

In this case, the data on the line 2 is normally received by the processing unit 20 because the input line processing unit 22 is normal, but the processing unit 20 is a standby system and is discarded without being processed. Will end up.

[0009]

Conventionally, in a system having a duplicated processing unit, switching between the active system and the standby system is performed by the status information of the partner processing unit sent via the intersystem link. In this way, the device that is operating normally is made to be the active system, and if both devices have abnormal locations, the one with the lesser degree of abnormality operates as the active system.

As described above, in a system in which both processing devices simultaneously receive data from the input line, if there is an abnormality in the input line processing units corresponding to different lines in both processing devices, it is better to have less abnormality. Since it is the active system, there is a problem that even if the standby system can input data normally, if the data cannot be received normally by the active system, the active system transmits as abnormal data.

The present invention is intended to solve such a problem of the prior art, and in a system having a duplicated processing device, data can be transferred from a standby system to an active system via an intersystem link. By doing so, even if the data that cannot be normally received by the active system can be received normally by the standby system, it can be transmitted as normal data by transferring from the standby system to the active system via the intersystem link. The purpose is to

[0012]

[Means for Solving the Problems]

(1) FIG. 1 shows the basic configuration of the present invention.
According to the present invention, the processing devices 1 and 2 are switched according to the status information indicating the state of the partner processing device transferred via the inter-system link 3 to become the active system and the standby system,
In a duplicated data processing device for processing data received from a plurality of lines at the same time and transmitting it from an active processing device, a data transfer means 4 is provided in an inter-system link 3 to transfer data between the processing devices. When the processing device of the standby system is in the standby support state by transferring the support data to the processing device of the active system via the data transfer means 4, the active system can be performed without switching the system. The data input to the standby processing device is transmitted from the active processing device instead of the data not normally input to the processing device.

(2) According to the present invention, in (1), the processing unit that has become a standby system receives standby support in response to a standby support command sent from the active processing system via the intersystem link 3 at regular intervals. In this state, the support data is transmitted to the active processor via the data transfer means 4.

(3) Further, in the present invention according to (1), the processing device which has become a standby system receives information indicating the occurrence of a status change in its status from the active processing device via the intersystem link 3. At this time, when the standby support state is entered and the state of the support data changes, the data transfer means 4
After that, the support data is transmitted to the active processor.

[0015]

[Action]

(1) In the redundant data processing device, both processing devices 1,
2 is switched according to the status information indicating the state of the partner processing device transferred via the inter-system link 3 to become the active system and the standby system, and process the data acquired simultaneously from a plurality of lines. Then, the data is transmitted from the active processor.

In this case, the intersystem link 3 is provided with the data transfer means 4 so that the data can be transferred between the processors. Then, when the standby processing device enters the standby support state, the support data is transferred to the active processing device via the data transfer means 4.

Therefore, in the system switching processing system in the duplicated data processing device of the present invention, system switching is not performed,
The data input to the standby processing device can be transmitted from the active processing device in place of the data that is not normally input to the active processing device.

(2) In (1), the processing unit that has become the standby system enters the standby support state in response to a standby support command sent from the active processing unit via the intersystem link 3 at regular intervals. Then, by transmitting the support data to the processing device of the active system via the data transfer means 4, the data transfer between the systems can be performed.

(3) In (1), when the processing unit that has become the standby system receives information indicating that a status change has occurred in the status from the active processing unit via the inter-system link 3, it stands by. When the support data enters the support state and the support data changes in state, the support data is transmitted to the active processing device via the data transfer means 4, whereby the data transfer between the systems can be performed.

[0020]

FIG. 2 shows the configuration of an embodiment of the present invention, in which the same components as those in FIG. 5 are designated by the same reference numerals, and 31 is a data transfer unit provided in an intersystem link 30. is there.

In FIG. 2, the inter-system link 30 transfers status information of each device between the processing devices 10 and 20 to each other, and when in the standby support state, the data is transmitted from the standby system via the data transmission unit 31. Performs the function to transfer the supported data to the system.

FIG. 3 shows a data flow (1) of an intersystem link when the active system and the standby system are linked, and the intersystem status is transmitted from the active system to the standby system at a constant cycle t _1. It shows the case of sending.

In FIG. 3, A is a fixed-cycle inter-system status block, which is composed of status information indicating the status of the active system and a standby support command, and has a fixed cycle t ₁
Is sent from the active system to the standby system, and the standby system enters the standby support state in response to the standby support command.

B shows the first response block. When the standby system receives the inter-periodic system status block A from the active system, if the standby system receives the data (support data) corresponding to the standby support command, the response block B transmits it to the active system.

C indicates the second response block. When the amount of support data is large, it is divided and transmitted as a response block C when the next inter-periodic status block A is received following the response block B. When the amount of support data is large, it is possible to further divide and transmit.

FIG. 4 shows the data flow (2) of the intersystem link when the active system and the standby system are linked, and when the status change (state change) of the active system occurs, It shows a case where the data is transmitted to the active system in accordance with the status change of the support data.

In FIG. 4, B is an inter-system downlink status.
It is a block, and in the status information in the active system,
For example, when a status change indicating an occurrence of an abnormality in any of the input line processing units occurs, the inter-system downlink status block notifies the standby system. The standby system is thus in the standby support state.

C indicates an inter-system data block.
In the standby system, when there is a change in the support data when the standby support state is set, this data is transmitted to the active system.

[0029]

As described above, according to the present invention, in a system having a duplicated processing device, data can be transferred from a standby system to an active system via an inter-system link. When data that cannot be received normally can be received normally by the standby system, by transferring it from the standby system to the active system via the inter-system link, and by using this in the active system, it becomes closer to normal. It is possible to process the data, reduce the frequency of system switching, and prevent time and data loss due to system switching.

[Brief description of drawings]

FIG. 1 is a diagram showing a principle configuration of the present invention.

FIG. 2 is a diagram showing a configuration of an exemplary embodiment of the present invention.

FIG. 3 is a diagram showing a data flow (1) of an inter-system link when the active system and the standby system cooperate with each other.

FIG. 4 is a diagram showing a data flow (2) of an intersystem link at the time of cooperation between the active system and the standby system.

FIG. 5 is a diagram showing a configuration of a conventional duplex system.

[Explanation of symbols]

 1 processor 2 processor 3 intersystem link 4 data transfer means

Claims (3)

[Claims] 1. A plurality of processing devices (1, 2) are switched according to status information indicating a status of a partner processing device transferred via an inter-system link (3) to become an active system and a standby system, and a plurality of processing devices are provided. In the duplicated data processing device for processing the data simultaneously fetched from the line and transmitting it from the active processing device, the inter-system link (3) is provided with data transfer means (4) for transferring data between the processing devices. When the processing device of the standby system is in the standby support state, the support data is transferred to the processing device of the active system through the data transfer means (4) to process the active system without switching the system. In a duplicated data processing device characterized in that data input to a standby processing device instead of data not normally input to the device is transmitted from an active processing device. Switching processing system. 2. The processing device which has become the standby system is brought into a standby support state in response to a standby support command sent from the active processing device via the intersystem link (3) at a fixed cycle, and the data is stored. The support data is transmitted to the active processing device via the transfer means (4).
The system switching processing method in the redundant data processing device described in. 3. A standby support state is set when the processing unit that has become the standby system receives information indicating a status change in its status from the active processing unit via the inter-system link (3). 2. The system switching in the duplex data processing device according to claim 1, wherein when the status of the support data changes, the support data is transmitted to the active processing device via the data transfer means (4). Processing method.