KR20030052599A - A method for setting dynamically inter-processor communication path information in atm switch - Google Patents

Abstract

PURPOSE: A method for dynamically setting IPC(Inter-Processor Communication) path information in an ATM exchange is provided to dynamically set the IPC path information, thereby setting necessary information when activating individual processors and device controllers and changing the IPC path information if forms of the processors or the device controllers are changed. CONSTITUTION: If an operation maintenance processor receives form information from an operation workstation(31), an ATM exchange extracts communication path information(32), and transmits the extracted communication path information to all processors mounted on a system(33). If a response to the path information transmission is received from a processor and device controller(34), the operation maintenance processor changes a path state(35), and reports changed path state information to the operation workstation(36). The operation maintenance processor unlimitedly repeats the path information transmission by a timer, and always stands by a path setup response and the form information.

Description

A METHOD FOR SETTING DYNAMICALLY INTER-PROCESSOR COMMUNICATION PATH INFORMATION IN ATM SWITCH}

The present invention relates to a method for setting path information for inter-processor communication (IPC) for exchanging information in a device control period with a processor mounted in an Asynchronous Transfer Mode (ATM) switch. More specifically, it relates to how to set up dynamically during operation, rather than the static way that is set up when the system is installed.

In an asynchronous transmission exchange that provides services to a user in real time and exchanges a wide bandwidth and a large amount of data, a processor and a device controller, one of the components in the asynchronous transmission exchange, use interprocessor communication to exchange information with each other. . In order to achieve such interprocessor communication, a hardware path within which the interprocessor communication packet is delivered must exist within the exchange, and communication must be established in advance. Therefore, the setting of the communication path information between the processors should be made before starting the communication between the objects to be communicated with each other. If the path information is incorrect, serious system overload and instability may be caused.

In the conventional asynchronous transfer switch, a method for establishing a communication path between processors is a static method in which communication path information is set in advance in all or part of firmware on devices on the communication path. Since a large number of processors and device controllers are mounted in a large system such as an asynchronous transmission exchange, designing a full mesh structure that opens a communication path to all targets is impossible because it exceeds the limit of configuration information. . In other words, if there are 1024 entities that need to communicate with the system, more than 1 million connections (1024 X 1023 = 1,047,552) are required. In this case, assuming that 64 bytes of storage for each connection information are required, an additional storage of nearly 64 megabytes is required for each device on the communication path to store the entire connection information. Therefore, the connection information should be set only between the targets for which communication is required. The static configuration of the connection information does not flexibly cope with the addition, deletion, or movement of a new processor or device controller.

On the other hand, as a prior art of the present invention, "multiprocessor state management method using a dynamic monitoring period in the asynchronous transfer mode switch" has been registered as Korean Patent Registration No. 216573 (Registration Date: May 31, 1999). In the prior art, by monitoring the state of the processor, by changing the monitoring cycle dynamically, in order to minimize the occurrence of abnormal and normal detection is repeated, by adding an abnormal standby state in addition to normal and abnormal as the state of the processor It is characterized by the change of the status monitoring interval. However, the prior art focuses only on solving the instability of state management due to the delay of the communication path, and there is no explanation on dynamic setting of the communication path information between processors, and no solution is presented. .

The present invention has been made under the technical background as described above, and dynamically sets the communication path information between processors designed for the system shape so that the necessary information is set when the individual processor and the device controller are started, and the processor The purpose of the present invention is to provide a method for setting path information for inter-processor communication so that the communication path information between processors can be changed only by transferring the path information corresponding to the shape of the device controller to the operation maintenance processor. .

1 is a block diagram of an apparatus for communication between a processor and a device control period of an asynchronous transfer switch to which the present invention is applied.

2 is a block diagram illustrating the concept of setting communication path information of a processor and an apparatus control period of an asynchronous transmission system switch to which the present invention is applied;

3 is a flowchart illustrating a procedure of an operation of an operation maintenance processor for establishing a communication path in an asynchronous transfer switch according to the present invention.

4 is a flowchart illustrating a procedure of an operation of a processor and a device controller for establishing a communication path in an asynchronous transfer switch according to the present invention.

(Explanation of symbols for the main parts of the drawing)

11: operating workstation 12: operation maintenance processor

13 processor 14 device controller

15: multiplexer 16: switch

The present invention for achieving the above object,

A method for setting path information for interprocessor communication in an asynchronous transfer switch having a plurality of processors and device controllers, the method comprising:

A first step of collecting shape information on each of the processor and the device controllers in the operation preservation processor and extracting communication path information from the shape information; A second step of transmitting the communication path information extracted in the first step to each of the processor and the device controllers; Each of the processor and the device controller receives the communication path information transmitted in the second step in the state of starting or restarting, resetting the communication path only when there is a change in the received communication path information, and generating a path setting response. Transmitting to an operation preservation processor; And a fourth step of changing a path state based on the path setting response received in the third step, and reporting the changed path state information to an operator.

In addition, the present invention for achieving the above object,

A program for setting path information for interprocessor communication in an asynchronous transfer switch having a plurality of processors and device controllers,

A first function of receiving, from an operation preservation processor, shape information for each of the processor and device controllers, and extracting communication path information from the shape information; A second function of transmitting communication path information extracted from the first function to each of the processor and the device controllers; Each processor and the device controller receive the communication path information transmitted from the second function in the state of starting or restarting, resetting the communication path only when there is a change in the received communication path information, and generating a path setting response. A third function for transmitting to an operation preservation processor; And a computer readable recording medium recording a program for changing a path state based on a path setting response received by the third function and executing a fourth function of reporting the changed path state information to an operator. .

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a configuration of an apparatus for processor and device control period communication of an asynchronous transfer switch to which the present invention is applied.

Referring to FIG. 1, the operation maintenance processor 12 is connected to the outside of the system through an operation workstation 11, and the plurality of processors 13 and the device controllers 14 are connected to each other through an interprocessor communication means. It is connected. In the present embodiment, two multiplexers 15 and switches 16 are used as the interprocessor communication means, but the number and connection relationship may be configured differently depending on how many communication entities are used.

The operation maintenance processor 12 may receive an operator's command and information through the operation workstation 11 by activating itself, and output the result of the command and the state of the system, but other processors 13 The device controllers 14 perform functions by loading necessary software from the operation preservation processor 12. In order to perform this function, a communication path with the operation maintenance processor 12 must be secured.

In establishing a communication path between the processor and the device controllers of the conventional asynchronous transfer switch, data is stored when the device controller and the processor including the operation maintenance processor loaded with software are loaded, and thus the communication path information is set. In order to change the communication path information, a new information must be loaded through restart. In addition, devices that are not loaded with software such as multiplexers and switches should be mounted in the form of firmware in advance, and when the path information is to be changed, components in which the firmware is stored have to be replaced. Thus, when the addition, deletion or change of shape occurred, serious interruption of service and instability were caused.

Figure 2 is a configuration for explaining the concept of setting the communication path information of the processor and the device control period of the asynchronous transfer mode switch to which the present invention is applied.

Referring to FIG. 2, the operation workstation 21 transmits shape information of an externally manufactured system to the operation maintenance processor 22, and the operation maintenance processor 22 extracts communication path information from the shape information. To the processor and the device controller 23. The processor and the device controller 23 set their communication path information and send a response to the operation maintenance processor 22. The operation maintenance processor 22 collects the path setting response and sends the path status information to the operation workstation 21 to inform the operator of information on the processor and the device controller that are currently available for communication.

3 is a flowchart illustrating a procedure of an operation of an operation maintenance processor for establishing a communication path in an asynchronous transfer switch according to the present invention.

When the operation maintenance processor 22 receives the shape information from the operation workstation 21 (31) during the initial operation or when the shape information including the communication path information is changed (32), the communication path information is extracted (32). In step 33, the extracted communication path information is transmitted to all processors mounted in the system. When a response to the path information transmission is received from the processor and the device controller 23 (34), the operation maintenance processor 22 changes the path state according to the response (35), and the operating workstation 21 The changed route status information is reported (). The operation maintenance processor 22 infinitely repeats communication path information transmission by a timer at a predetermined cycle, and always sets a path setting response sent from the processor and the device controller 23 and the operation workstation 21. Waiting for shape information to be received.

4 is a flowchart illustrating a procedure of an operation of a processor and a device controller for establishing a communication path in an asynchronous transfer switch according to the present invention.

Since the communication path between the processor and the device controller 23 and the operation maintenance processor 22 of FIG. 2 is fixed, it is configured in the form of firmware in advance, and the processor and the device controller 23 are always the operation maintenance processor. A message transmitted at 22 may be received.

Referring to FIG. 4, the processor and the device controller 23 start or restart 41 and receive communication path information from the operation maintenance processor 22 (42). Next, the received communication path information is compared with the previously received to determine whether there is a change (43). If there is a change in the communication path information in step 43, the communication path is reset (44). If there is no change, the path setting response is transmitted to the operation maintenance processor 22 (45). Of course, even if there is a change in the communication path information, after the communication path resetting step 44, the path setting response is transmitted to the operation maintenance processor 22. According to the above procedure, communication between the operation preservation processor 22 and the processor and the device controller 23 is enabled, and communication path information periodically transmitted from the operation preservation processor 22 is previously routed. The communication path is reset only when different from.

In summary, the operation maintenance processor 22 serves as a server for establishing a communication path, and the processor and the device controller 23 serve as clients. However, other processors except for the operation maintenance processor 22 also need to establish a communication path to communicate with other processors and device controllers. This procedure operates in the same manner as FIG. 3 except for the following. In the present invention, specific drawings are omitted.

The other processors except for the operation maintenance processor 22, after the communication path is established between the operation maintenance processor 22, the appropriate software is loaded and the service is started, the path is established between itself Route with other processors and device controllers that are not yet installed. Initially, the operation maintenance processor 22 establishes a communication path with other processors. Accordingly, all the processors have a communication path to the operation maintenance processor 22, and thus do not perform a communication path setting procedure to the operation maintenance processor. That is, since the first started or restarted processor establishes a communication path to other processors, the last started processor only needs to establish a communication path to the device controllers.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium such as a CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, magnetic tape, or the like in a computer-readable form.

The present invention described above is a preferred embodiment, and illustrates a method for establishing a dynamic communication path between a processor and a device controller in an asynchronous transfer switch. However, the scope of the present invention is not limited to the drawings and examples expressed herein, it is common in the art that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

According to the present invention as described above, by setting only the communication path transmitted from the operation maintenance processor to the processor and the device controller can be dynamically and quickly reset the communication path according to the change of the system shape, through this process The communication path state of the can also be detected in real time. Therefore, when the present invention is applied, when a change in shape due to expansion or change of a system that occurs frequently in practice and replacement for periodic management occurs, simply loading the communication path information to the operating workstation, a short time Communication paths can be established within the service to minimize interruption of service. Such dynamic system configuration changes can be expected to reduce the frequency of errors by manual operation and increase the life of the hardware device, and to quickly detect and roll back or re-produce errors in the changed configuration information. By enabling reset, it improves the reliability of the system and reduces the operator's work.

Claims (5)

A method for setting path information for interprocessor communication in an asynchronous transfer switch having a plurality of processors and device controllers, the method comprising: A first step of collecting shape information on each of the processor and the device controllers in the operation preservation processor and extracting communication path information from the shape information; A second step of transmitting the communication path information extracted in the first step to each of the processor and the device controllers; Each of the processor and the device controller receives the communication path information transmitted in the second step in the state of starting or restarting, resetting the communication path only when there is a change in the received communication path information, and generating a path setting response. Transmitting to an operation preservation processor; And, And a fourth step of changing a path state based on the path setting response received in the third step and reporting the changed path state information to an operator. How to set. The method of claim 1, And an operator to transmit and receive the shape information and the path state information to the operation preservation processor through an operation workstation connected to the operation preservation processor. The method of claim 1, The third step, Starting up or restarting each processor and device controller; Receiving communication path information from the operation maintenance processor; Determining whether the communication path information received in the step has changed in the previously received communication path information; Resetting the communication path only when there is a change in the communication path information in the step; And, And transmitting a path setting response to the operation preservation processor based on the established communication path. The method of claim 1, In the second step, the operation maintenance processor dynamically sets the communication path information between the processors in the asynchronous transmission method switch, characterized in that for repeating the transmission of the communication path information by a timer. A program for setting path information for interprocessor communication in an asynchronous transfer switch having a plurality of processors and device controllers, A first function of receiving, from an operation preservation processor, shape information for each of the processor and device controllers, and extracting communication path information from the shape information; A second function of transmitting communication path information extracted from the first function to each of the processor and the device controllers; Each processor and the device controller receive the communication path information transmitted from the second function in the state of starting or restarting, resetting the communication path only when there is a change in the received communication path information, and generating a path setting response. A third function for transmitting to an operation preservation processor; And, A computer-readable recording medium having recorded thereon a program for executing a fourth function of changing a path state based on a path setting response received from the third function and reporting the changed path state information to an operator.