KR100228308B1 - The input/output data processing method in multi-node switching system - Google Patents

Abstract

The present invention implements a method for preventing the reliability of the exchange system from deteriorating due to excessive generation of input / output data for a specific service in the exchange system. The present invention multiplexes the generated I / O data in one node and another node adjacent to the one node when the I / O data occurs in one node in the exchange system in which a plurality of exchange systems each formed as one node are multiple nodes. Provide a way to. In addition, the present invention provides a method for distributing the generated input and output data in one node or another node adjacent to the magnetic node when the input and output data occurs in one node.

Description

Input / Output Data Processing Method of Multi-Node Exchange System

The present invention relates to an exchange system, and more particularly to a method for more improved input and output data processing.

In general, a plurality of input / output devices for inputting and outputting various types of data processed during operation of the system are connected to a switching system, particularly a private branch eXchange. For example, charging devices, printers, voice mail systems, and the like are input / output devices connected to the exchange system.

As shown in FIG. 1, the input / output devices of the switching system are connected to the input / output processing unit 30 of the switching system including the subscriber processing unit 10, the main processing unit 20, and the input / output processing unit 30. In this case, since each input / output device is connected to one input / output processor 30, when excessive input / output data of a specific type occurs, the input / output service of another type may affect other input / output services. For example, when an excessive amount of data input / output to the charging device 40 occurs, it affects the input / output services of other types, that is, the printer 50 and the VMS 60. As a result, there is a problem that the performance of the overall I / O service of the switching system is degraded. In addition, since each input / output device is connected to one input / output processor 30, when a failure occurs in the input / output processor 30 itself, a problem occurs that the input / output service of the switching system is stopped.

Accordingly, an object of the present invention is to provide a method for preventing the performance of other I / O services from deteriorating even when one type of I / O data is excessively generated in an exchange system.

Another object of the present invention is to provide a method for service by an input / output device connected to the input / output processing unit even when a failure occurs in the input / output processing unit in the switching system.

It is another object of the present invention to provide a method for preventing the loss of important input / output data in an exchange system.

It is another object of the present invention to provide a method for improving the reliability of service operation of input / output data in an exchange system.

The present invention for achieving these objects proposes a switching system in which a plurality of switching systems each formed as one node is configured as multiple nodes.

The input / output data processing method according to the first aspect of the present invention is to multiplex the input / output ports of each node with the input / output ports of other nodes, and to generate the input / output data generated when the input / output data occurs at one node. And multiplexing at another node adjacent to the node.

The input / output data processing method according to the second aspect of the present invention is characterized in that the input / output data generated when the input / output data is generated in one node is distributed by the own node or another node adjacent to the own node. At this time, it is determined whether a failure of the own node where the input / output data occurs. In the normal case, the generated input / output data may be processed in the own node or the other node, and in the event of a failure, the generated input / output data is transmitted to the other node and processed there.

1 shows a schematic configuration of a general exchange system.

Figure 2 shows the configuration of a multi-node switching system implemented in accordance with the present invention.

3A and 3B are views illustrating the structure of an input / output control database for each node in a normal case in a multi-node switching system.

4A and 4B are views showing the structure of an input / output control database for each node in an abnormal case in a multi-node switching system.

5 is a diagram illustrating a processing flow of input data generated in a multiple node exchange system according to the present invention.

6 is a diagram illustrating a processing flow of output data generated in a multiple node exchange system according to the present invention.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or chip designer, and the definitions should be made based on the contents throughout the present specification.

2 is a diagram showing the configuration of an exchange system, that is, a multi-node exchange system according to the present invention. Here, an example in which a multi-node switching system is composed of a switching system of node 1, which is two nodes, and a switching system of node 2 is shown. However, it should be noted that the operation according to the present invention can be applied to a multi-node switching system consisting of at least two nodes. In the following description, it should be noted that the input / output data processing operation according to the present invention is performed by using the node 1 switching system as an example. It should be noted that such an input / output data processing operation of node 1 may also be performed in other nodes.

Referring to FIG. 2, each of the switching system forming the node 1 and the switching system forming the node 2 includes subscriber processing units 10 and 12, main processing units 20 and 22, input / output processing units 30, 32 and an external input / output device (charging device 40, 42, printer 50, 52, VMS 60, 62), as well as the node matching processing unit 70, 72 further comprises. The subscriber processing unit 10, 12 is responsible for the extension and trunk line subscriber processing of the switching system. The main processing units 20 and 22 are in charge of call processing of the exchange system. The input / output processing units 30 and 32 are responsible for connection and communication with the external input / output device through the input / output port. The node matching processing unit 70, 72 is in charge of the connection and communication between its own node and another node and is an essential element in constructing a multi-node switching system. In addition, an input / output control database configured as shown in FIGS. 3A to 4B may be provided inside the main processing units 20 and 22 of each node in the multi-node switching system for the operation according to the present invention. The I / O data is processed according to the flow shown in FIGS. 5 and 6 to be described later with reference to the I / O control database.

3A and 3B are views illustrating the configuration of an input / output control database provided in the main processor 20 of the node 1 and the main processor 22 of the node 2. In the input / output control database, input / output positions (nodes and ports) for each type of input / output data generated in a corresponding node are recorded.

Referring to the input / output control database of the node 1 shown in FIG. 3A, the charging device 40 is set to be connected to the first input / output port of the input / output processing unit 30 at the node 1, and the printer 50 is connected to the second input / output port. The VMS 60 is connected to the third input / output port. Unlike this, referring to the input / output control database of node 2 shown in FIG. 3B, the charging device 42 is connected to the first input / output port of the input / output processing unit 32 in node 2, and the printer 52 is connected to the second input / output port. The VMS 62 is connected to the third input / output port.

Each of the input and output ports of the node 1 is set such that the charging device 40, the printer 50, and the VMS 60, which are the input / output devices of the own node, are connected. However, it can be seen that an input / output device of another node is connected to an input / output device of a node 2 as well as an input / output device of another node. That is, although the printer 52, which is an input / output device of the own node, and the VMS 62 are connected to the second and third input / output ports of the node 2, the charging device 40, which is an input / output device of another node, is connected to the first input / output port. Is set to.

As such, when the charging device 40 of the node 1 is configured to be multiplexed with the first input / output port of the node 1 and the first input / output port of the node 2, the charging data to be output to the charging device 40 is inputted to the first input / output port of the node 1 and the node 2. To multiplex output. Accordingly, even when important data of the exchange system such as billing data is excessively generated, this can prevent the I / O service of other types of I / O data from being degraded.

4A and 4B are views illustrating the configuration of an input / output control database provided in the main processor 20 of the node 1 and the main processor 22 of the node 2. This input / output control database is an input / output control database used when a failure occurs in the node 1 switching system (specifically, the input / output processing unit 30).

Referring to the input / output control database of node 1 shown in FIG. 4A, the charging device 40 of node 1 is set to be connected to the first input / output port of node 2, and the printer 50 of node 1 is the second input / output port of node 2. The VMS 60 of the node 1 is configured to be connected to the third input / output port of the node 2. In contrast, referring to the input / output control database of the node 2 shown in FIG. 4B, the charging device 42 of the node 2 is set to be connected to the first input / output port of the node 2, and the printer 52 of the node 2 is the second node of the node 2. The VMS 62 of the node 2 is set to be connected to the third input / output port of the node 2.

As described above, in the event of a failure in node 1, each input / output device of node 1 is configured to be connected to each input / output port of node 2, which is another adjacent node, and each input / output device of node 2 is each input / output port of node 2 that is its own node. Is set to be connected to. Accordingly, even if data for I / O processing is generated at any node in which a failure occurs in the multi-node switching system, the generated I / O data is transmitted to other nodes adjacent to its own node and distributed. As a result, even when a failure occurs in the input / output processing unit of the exchange system, the input / output data generated in the failed exchange system is processed by another node.

5 and 6 are views illustrating a processing flow of input data and a processing flow of output data generated in the multi-node switching system according to the present invention, respectively. At this time, the operation of each data processing will be described by taking the case of processing in the switching system of the node 1 as described above.

First, the operation of the input data processing flow according to the present invention will be described with reference to FIG. 5. Here, the switching system of node 1 may process input data generated at its own node or input data generated at another node.

The input data processing operation of the switching system of the node 1 may be performed by the node matching processing unit 70 receiving input data generated by another node in operation 501 or the input / output processing unit 30 receiving input data generated by an external input / output device in operation 502. Begins. After performing step 501 or step 502, the node matching processor 70 or the input / output processor 30 transmits the received data to the main processor 20 in step 503. In operation 504, the main processor 30 determines the processing direction of whether to process input data in the own node or another node with reference to the input / output control database of the own node. In this case, when it is determined that the processing direction is the own node, the main processor 30 processes the data in step 505. However, if it is determined that the processing direction is another node, the main processor 30 transmits the input data to the node matching processor 70 using the target node as another node in step 506. Thereafter, in step 507, the node matching processor 70 receives the transmitted input data and transmits it to the designated target node. The data transmitted to another node may be transmitted only by input data generated by an external input / output device of the node, and the input data received from another node may be processed only by the main processor 20 of the node. This is because the destination node of the input data generated at another node may be its own node, and the destination node of the input data generated at its own node may be its own node or another node.

Next, the operation of the output data processing flow according to the present invention will be described with reference to FIG. Here, the switching system of node 1 may process output data generated at its own node or output data generated at another node.

The output data processing operation of the switching system of the node 1 starts with an operation in which the node matching processing unit 70 receives output data generated by another node in step 601 or receives output data generated in the main processing unit 20 of its own node in step 602. do. After performing step 601 or step 602, the main processor 20 determines whether to process the received output data in its own node or another node with reference to the input / output control database in step 603. . In this case, when it is determined that the processing direction is the own node, in step 604, the main processor 30 instructs the output data generated at the own node or the output data generated at another node to the in-node input / output processor 30 at step 604. In step 605, the input / output processing unit 30 controls the output data corresponding to the input / output port specified in the database. However, if it is determined that the processing direction is another node, the main processor 30 transmits the output data to the node matching processor 70 using the target node as another node in step 606. In step 607, the node matching processor 70 receives the output data thus transmitted and transmits the output data to the designated target node. The data transmitted to another node may be transmitted only by output data generated by an external input / output device of the own node, and output data received from another node may be processed only by the external input / output device of the own node. This is because the destination node of the output data generated at another node may be its own node, and the destination node of the output data generated at its own node may be its own node or another node.

In the case of normal operation of the input / output data according to the flow shown in FIGS. 5 and 6, the generated input / output data is processed by the own node or another node, and when a failure occurs, it is transmitted to the other node and It is summarized as an operation to be processed.

As described above, the present invention configures a plurality of exchange systems as a multi-node exchange system so that input / output data generated at one node can be processed at one node or another node. By doing this, there is an advantage that the generated I / O data can be processed in another node even when there is a failure in the exchange system where the I / O data has occurred. In addition, even when a particular I / O data is excessively generated in its own node, the excessive I / O data is distributed in other nodes, thereby preventing the performance of other services from deteriorating when data occurs in a specific service.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (3)

In the input / output data processing method of the switching system, Multiple node switching system is formed by connecting multiple switching systems formed as one node to each other to multiplex the I / O ports of each node with the I / O ports of other nodes, and to generate the I / O data generated when I / O data occurs in one node. A method for processing input / output data, characterized in that the magnetic node and another node adjacent to the magnetic node are processed. In the input / output data processing method of the switching system, A plurality of switching systems, each formed as a node, are connected to each other to form a multi-node switching system, and when input / output data is generated in one node, the generated input / output data is distributed in one node or another node adjacent to the node. Input and output data processing method characterized in that the processing. The method according to claim 2, wherein when the input / output data occurs, it is determined whether a failure of the magnetic node occurs, and in the normal case, the generated input / output data is processed by the magnetic node or the other node, and when the failure occurs, the generated input / output data. Input / output data processing method for transmitting to the other node.

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