KR20080111215A - Duplex system and method of access switching processor - Google Patents

Abstract

A duplex system using access switching processors and a method thereof are provided to offer a service to subscribers without disconnection through the other access switching processor although one access switching processor has a defect. A duplex system comprises the first access switching processor(10), the second access switching processor(20) and a bus(30). The first access switching processor in which the first operating processor(11) and the first preliminary processor(12) are connected by a control channel and a data channel. The memories of the first preprocessor and the first operating processor are synchronized through the data channel. If the first operating processor cannot be operated by a defect, the first preliminary processor operates on behalf of the first operating processor by transmitting a control message to the first preliminary processor through the control channel.

Description

Duplex System and Method of Access Switching Processor

1 illustrates a connection exchange processor redundancy system in accordance with the present invention.

2 is a diagram illustrating a process of duplexing a connection exchange processor according to the present invention;

Explanation of symbols on the main parts of the drawings

10: first connection exchange processor 11: first operating processor

12: first preprocessor 20: second connection exchange processor

21: second operating processor 22: second preprocessor

30: bus

The present invention relates to a connection exchange processor redundancy system of an exchange. According to the present invention, two connection exchange processors form a pair by sharing a bus. Therefore, when one connection exchange processor fails, it is possible to provide uninterrupted service to subscribers by another connection exchange processor constituting the pair.

In the conventional connection exchange processor, the main processor is redundant to provide a service. That is, when two main processors are connected and the first main processor (active processor) fails and fails to operate, the second main processor (standby processor) provides a service instead. However, in the case of the processor duplication as described above, the duplication operation is possible only when the control message from the active processor to the standby processor is normally transmitted. Therefore, when the control message is not transmitted to the standby processor due to a hardware failure or other reasons, there is a problem in that the redundancy function does not work and the service provision is stopped.

The present invention has been made to solve the above problems, and in the present invention, two connection exchange processors form a pair by sharing a bus. Therefore, when one connection exchange processor fails, it is possible to provide uninterrupted service to subscribers by another connection exchange processor constituting the pair.

Accordingly, it is an object of the present invention to provide a connection exchange processor redundancy system. It is also an object of the present invention to provide a method for redundancy of a connection exchange processor.

The present invention relates to a connection exchange processor redundancy system. The apparatus is a first connection exchange processor having a first operating processor and a first preliminary processor connected by a control channel and a data channel, through which the memory of the first operating processor and the first preliminary processor is synchronized, A first preprocessor configured to perform a function on behalf of the first operating processor by transferring a control message to the first preprocessor through the control channel when the first operating processor fails to operate due to a defect. 1 connection switching processor; A second connection exchange processor having a second operating processor and a second spare processor connected by a control channel and a data channel, wherein the memory of the second operating processor and the second spare processor is synchronized through the data channel; A second connection exchange configured to transmit a control message to the second preliminary processor through the control channel when the operating processor fails to operate due to a defect, so that the second preprocessor performs a function on behalf of the second operating processor. A processor; And a bus connecting the first connection exchange processor and the second connection exchange processor.

The present invention also relates to a method of duplexing a connection exchange processor, wherein a first connection exchange processor operating by duplexing a first operating processor and a first preliminary processor, and a second operation processor and a second preliminary processor operating duplexed. A method of duplexing by connecting a second access exchange processor via a bus, the method comprising: periodically transmitting a status check request message to the first access exchange processor by the second preliminary processor; And when the second preliminary processor does not receive the response message more than a predetermined number of times in succession from the first access exchange processor with respect to the status check request message, the second preliminary processor functions on behalf of the first operating processor. Performing the steps.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, the present invention is not limited by the following examples.

1 is a diagram illustrating a connection exchange processor duplication system according to the present invention, and FIG. 2 is a diagram illustrating a process of duplication of a connection exchange processor according to the present invention.

A connection exchange processor redundancy system according to the present invention includes a first connection exchange processor 10, a second connection exchange processor 20 and a bus 30 shared by the processors and connecting between the processors.

The first access exchange processor 10 includes a first operating processor 11, a first preliminary processor 12, and a control channel 13 and a data channel 14 connecting between the processors.

The first operation processor 11 performs a function as a main processor of the first connection exchange processor 10 (active mode). The first preliminary processor 12 is a preliminary unit configured to perform a function on behalf of the first operation processor 11 when the first operation processor 11 fails due to a defect such as a hardware failure. Processor.

The first operating processor 11 and the first preliminary processor 12 are connected by a control channel 13 and a data channel 14, and the first operating processor 11 is damaged by a defect such as a hardware failure. When it does not operate normally, the control message is transmitted to the first preliminary processor 12 through the control channel 13. Upon receiving the control message, the first preliminary processor 12 operates in an active mode and performs a function on behalf of the first operating processor 11 based on a memory synchronized through the data channel 14.

The second connection exchange processor 20, like the first connection exchange processor 10 described above, includes a control channel 23 connecting the second operation processor 21, the second preliminary processor 22, and the processor. It includes a data channel 24, and the basic functions of the above detailed configuration are as described above.

The second connection exchange processor 20 provides the mobile telephone service by the internally redundant processor in the same manner as the first connection exchange processor 10, and in addition, the first connection exchange processor 10 and the bus ( 30, and performs a function of a pair processor of the first access exchange processor 10. In addition, the first connection exchange processor 10 also functions as a pair processor of the second connection exchange processor 20.

The second preliminary processor 22 periodically checks the operation state of the control channel 13 of the first operation processor 11 and the first access exchange processor 10, and checks the bus 30. Periodically transmitting a status check request message to the first access exchange processor 10 through (S10). Preferably, the second preliminary processor 22 transmits a status confirmation request message to the first access exchange processor 10 every three seconds.

When the first connection exchange processor 10 is performing the function normally, that is, when any one of the first operating processor 11 and the first preliminary processor 12 is performing the function, the second connection exchange processor 10 performs the function. When the status check request message is received from the preliminary processor 22, the second preliminary processor may be executed by any one of the first operating processor 11 and the first preliminary processor 12 operating in an active mode. 22) to send a response message.

When the second preliminary processor 22 does not receive a response message from the first access exchange processor 10 with respect to the status check request message sent to the first access exchange processor 10, the second preliminary processor 22 continuously responds to the predetermined number of times or more. It is determined whether the message has not been received (S20). For example, when the second preliminary processor 22 does not receive a response message from the first access exchange processor 10 more than three times in a row, the second preliminary processor 22 operates the first operation. In place of the processor 11 performs a function (S30).

According to the present invention, two connection exchange processors form a pair by sharing a bus, so that even if one connection exchange processor fails, the other connection exchange processors constituting the pair provide uninterrupted service. Can be.

The embodiment according to the present invention is not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made without departing from the scope of the present invention.

Claims (4)

A first connection exchange processor having a first operating processor and a first preliminary processor connected by a control channel and a data channel, wherein the memory of the first operating processor and the first preliminary processor is synchronized through the data channel; A first connection exchange configured to transmit a control message to the first preliminary processor through the control channel when the operating processor fails to operate due to a defect so that the first preliminary processor performs a function on behalf of the first operating processor. A processor; A second connection exchange processor having a second operating processor and a second spare processor connected by a control channel and a data channel, wherein the memory of the second operating processor and the second spare processor is synchronized through the data channel; A second connection exchange configured to transmit a control message to the second preliminary processor through the control channel when the operating processor fails to operate due to a defect, so that the second preprocessor performs a function on behalf of the second operating processor. A processor; And And a bus connecting the first connection exchange processor and the second connection exchange processor. The processor of claim 1, wherein when the first connection exchange processor receives a status request message from the second preliminary processor, the first access exchange processor is configured by any one of the first operating processor and the first preliminary processor operating in an active mode. And send a response message to the second preprocessor. The method of claim 1, wherein the second preliminary processor periodically transmits a status check request message to the first access exchange processor through the bus, and fails to receive a response from the first access exchange processor more than a predetermined number of times in succession. And if so, wherein the second spare processor performs a function on behalf of the first operating processor. A first connection exchange processor operating by duplexing a first operating processor and a first preliminary processor, and a method of connecting by duplexing a second connection exchange processor operating by duplication of a second operating processor and a second preprocessor, Periodically transmitting, by the second preliminary processor, a status check request message to the first access exchange processor; And If the second preliminary processor does not receive a response message more than a predetermined number of times in succession from the first access exchange processor to the status check request message, the second preliminary processor performs a function on behalf of the first operating processor. And a connection exchange processor redundancy method.

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