KR100423720B1 - Processor Status Supervision Method in ATM Switch - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for monitoring the processor state of an asynchronous transfer switch.

2. The technical problem to be solved by the invention

The present invention can eliminate the unnecessary processor status request message, and a method that can monitor the processor status indirectly even when communication between some processors is lost, and a computer-readable recording medium having recorded thereon a program for executing the method. The purpose is to provide.

3. Summary of Solution to Invention

The present invention provides a method for monitoring a processor state of an asynchronous transfer switch having a plurality of processors, wherein the processor state of a corresponding point can be monitored through a bypass path even if a communication path between some processors fails. A first step in which each processor in the asynchronous transfer mode exchange transmits its state and state information of at least one other processor recently recognized to all processors except itself; A second step in which each processor receives state information sent from all processors except itself; And a third step of updating the state information of all processors according to the state information of each processor received in the second step to maintain the latest state.

4. Important uses of the invention

The present invention is used in a method for monitoring the processor state of an asynchronous transfer switch.

Description

Processor Status Supervision Method in ATM Switch

The present invention relates to a method for monitoring processor status in an asynchronous transfer switch, and more particularly, to a method for monitoring the latest status of other processors by exchanging latest status information with all processors and a program for realizing the method. The present invention relates to a computer-readable recording medium having recorded thereon.

In an asynchronous transmission exchange that must provide services to users in real time and exchange large bandwidths and vast amounts of data, a processor, which is one of the components in the asynchronous transfer exchange, is unlike one component failure. Because of the high impact on the system and the long recovery time, it is necessary to monitor the status of the processor in a fast and reliable manner.

1 is a diagram illustrating an embodiment of a method for monitoring a processor state of a conventional asynchronous transfer switch.

Conventional processors 111a to 111d store their own processor state information in individual processor state information 131a to 131d, and each of the processors 111a to 111d is all in one main operation maintenance processor 110. It is connected and its state through the inter-proccessor communication (IPC) (140a ~ 140d) only when the operation maintenance processor 110 requests the state information of each of the processors (111a ~ 111d) Communicate information At this time, the operation maintenance processor 110 periodically collects state information of each of the processors 111a to 111d, transfers the state information to all processor state information 121, and maintains the value. As described above, the conventional method for transmitting and requesting status information of each of the processors 111a to 111d is overloaded because the operation maintenance processor 110 manages the status information transmission of the processors 111a to 111d entirely. And it may cause a bottleneck, there is a case where the state management of each of the processors (111a ~ 111d) is not managed due to the failure of a specific processor or some path. In addition, a period of a signal sent by each of the processors 111a to 111d to receive the state information of each of the processors 111a to 111d from the individual processor state information 131a to 131d is determined by the processors 111a. In order to detect whether or not the state information of ˜111d) is changed, the operation maintenance processor 110 should be shorter than a period t _max of a signal sent to each of the processors 111a to 111d, which is the processor 111a ˜. This is because the correct state information of 111d) must be transmitted to the operation maintenance processor 110.

In the conventional method for monitoring the status information of the asynchronous transfer switch processor, since the operation maintenance processor, one main processor, collects and manages the status information of the remaining processors periodically, the status information of all processors is concentrated to the operation maintenance processor. As a result, communication bottlenecks occur, and the effect of failure of any one of the processors on the entire system becomes too sensitive, resulting in a drop in overall reliability.

The present invention has been proposed to solve the above problems, and can eliminate unnecessary processor status request messages, and executes the method and the method of monitoring the processor status indirectly even when communication between some processors is lost. The object of the present invention is to provide a computer-readable recording medium having recorded thereon a program.

1 is a diagram illustrating an exemplary embodiment of a method for monitoring a processor state of a conventional asynchronous transfer switch.

Figure 2 is a configuration diagram of an embodiment of a control system of an asynchronous transmission switch system to which the present invention is applied.

3 is a diagram illustrating an embodiment of a method for monitoring a processor state of an asynchronous transfer switch according to the present invention;

Figure 4 is an embodiment configuration for explaining how the processor state monitoring method according to the present invention when a problem occurs in the inter-processor communication.

5 is an embodiment diagram of a data structure of processor state information transmitted in accordance with the present invention.

* Description of the symbols for the main parts of the drawings *

110, 401: operational preservation processor

121, 311a ~ 311e: All processor status information

111a-111d, 201a-201d, 301a-301e, 402, 403: Processor

131a ~ 131d: Individual processor status information

210: operator matching device

221a, 221b: Processor Matching Device

230: switch 240: Ethernet

140a ~ 140d, 250, 320a ~ 320e, 404, 405, 406: Inter-Processor Communication

260: exchanger

501: Processor state 502: Processor state recognition time (Age)

In order to achieve the above object, the present invention provides a processor state of an asynchronous transfer switch having a plurality of processors, which enables the monitoring of the processor state of a corresponding point through a bypass path even if some communication between the processors occurs. A monitoring method, comprising: a first step of each processor in the asynchronous transfer mode switch transmitting its status and status information of at least one other processor recently recognized to all processors except itself; A second step in which each processor receives state information sent from all processors except itself; And a third step of updating the state information of all processors according to the state information of each processor received in the second step to maintain the latest state.

On the other hand, in order to monitor the state of the processor of the asynchronous transfer switch having a plurality of processors, in the asynchronous transfer switch having a processor, each processor in the asynchronous transfer switch exchanges the state and the latest A first function of transmitting status information of at least one other processor to all processors except itself; A second function in which each processor receives status information sent from all processors except itself; And a computer-readable recording medium having recorded thereon a program for realizing a third function of updating the state information for all processors according to the state information of each processor received in the second function to maintain the latest state. do.

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.

2 is a configuration diagram of an embodiment of a control system of an asynchronous transmission switch system to which the present invention is applied.

Each of the processors 201a to 201d is basically connected to each other through an inter-proccessor communication 250 within the switch 260, and the interprocessor communication 250 is connected to the processor matching devices 221a to 221b. It consists of a switch 230. In addition, the processors 201a to 201d are connected to the operator matching device 210 through the Ethernet 240 to communicate with the outside. Each of the processors 201a to 201d are connected to each other through an interprocessor communication 250 with equivalent qualifications to exchange status information messages. That is, each of the processors 201a to 201d transmits its own state information to the other processors 201a to 201d through the interprocessor communication 250, and conversely, the other processors 201a to 201d. Collect the status of.

3 is a diagram illustrating an embodiment of a state monitoring method of an asynchronous transfer type exchange processor according to the present invention.

Each of the processors 301a to 301e exchanges state information with all of the processors 301a to 301e except for itself, and the state information of all the processors 301a to 301e including the own processor state information 311a to 311d). That is, the processors 301a to 301e periodically transmit the state information stored by themselves to all the processors 301a to 310e except themselves, and each of the processors 301a to 301e at regular intervals. Receive state information of each of the processors 301a to 301e from all of the processors 301a to 301e except for the above, and in this manner, each of the processors 301a to 301e receives all the remaining processors 301a to The latest status information of 301e) is learned.

Unlike the conventional method, the processor state monitoring method according to the present invention, since each processor periodically exchanges the state of its own processor and the state of all the other processors it has, the information state of each processor in the operation maintenance processor There is no need to send a request message to request collection.

In addition, when a problem occurs in some paths between processors when the status information is transmitted, all other processors can be notified of their status information through a bypass method that passes through another processor without passing through a processor having a path problem. have.

FIG. 4 is a diagram illustrating an embodiment of a method for monitoring a processor state according to the present invention when a problem occurs in interprocessor communication.

In FIG. 4, a configuration diagram for explaining an interprocessor state monitoring method in processor A 401, a processor B 402, and a processor C 403, that is, three processors, which are operation preservation processors, is shown as an example. When the interprocessor communication 404 between the operation maintenance processor A 401 and the processor B 402 is disconnected, the processor A (401) is configured to manage the processor B (401) when the management is performed by a conventional processor state monitoring method. The state of 402 was unknown. Therefore, even when the processor B 402 is operating normally, the processor B 402 is regarded as an abnormal state and reported to the operator as an abnormal state.

However, using the processor state monitoring method according to the present invention, the state of the processor B (402) is the processor A, without going through the inter-processor communication (404) between the processor A (401) and the processor B (402) 401 may be passed. That is, the state of the processor B 402 is transferred to the processor C 403 through the interprocessor communication 405 between the processor B 402 and the processor C 403.

In addition, the state of the processor B 402 is transferred to the processor A 401 through the interprocessor communication 406 between the processor C 403 and the processor A 401.

As a result, even if any one of the interprocessor communications 404 to 406 is disconnected, the states of all the processors can be managed in the same manner as the normal communication state.

5 is an embodiment diagram of a data structure of processor state information transmitted in accordance with the present invention.

As shown in FIG. 5, the data structure of processor state information is configured to include information of all other processor states 501 including its own state information, and information of the time Age 502 that detected the state. .

In addition, when there is a large number of processor state information received for a predetermined time, the latest state is always set to the processor state, and the processor state 501 information thus set is transmitted between the processors.

Therefore, even when a point of disconnection between processors occurs, the state of the processor connected to the point is transmitted in a detour manner so that it can be managed normally.

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

As described above, the present invention described above illustrates a method for monitoring a processor state of an asynchronous transfer switch having a plurality of processors. However, the scope of the present invention is not limited to the drawings and examples shown herein, it is common knowledge in the art that various substitutions, modifications and changes can be made within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have

The present invention as described above, one processor can exchange the status information with all other processors, can eliminate the phenomenon that the message transmission is concentrated to the operation maintenance processor, and additionally requesting this in addition to the message that actually transmits the status information Since the request message is not required, the message can be reduced, and even when a part of the interprocessor communication fails, the state of the processors can be managed through the bypass path.

Claims (4)

In the processor state monitoring method of an asynchronous transfer switch having a plurality of processors, A first step in which each processor in the asynchronous transfer mode switch transmits its state and state information of at least one other processor recently recognized to all processors except itself; A second step in which each processor receives state information sent from all processors except itself; And A third step of updating the state information of all the processors according to the state information of each processor received in the second step to maintain the latest state; Including, the processor state monitoring method of the asynchronous transmission method switch to monitor the state of the processor at the corresponding point through the bypass even if the communication path between some of the processor failure. The method of claim 1, The state information transmitted from each processor includes the state related information of each processor and the time information at which the processor information is transmitted. The method of claim 1, Wherein each processor transmits and receives its own state information signals at regular intervals, the state information transmitted from each of the processors, the latest state information is transmitted, characterized in that the processor state monitoring method of the asynchronous transmission method switch. In order to monitor the status of a processor of an asynchronous transfer exchange having a plurality of processors, the asynchronous transfer exchange having a processor, A first function for each processor in the asynchronous transfer mode switch to transmit its status and status information of at least one other processor it has recently recognized to all processors except itself; A second function in which each processor receives status information sent from all processors except itself; And A third function of updating the state information of all processors according to the state information of each processor received in the second function to maintain the latest state A computer-readable recording medium having recorded thereon a program for realizing this.