KR100407689B1 - Time synchronization method after standby loading in ATM switch - Google Patents

Abstract

An object of the present invention is to provide a method for resolving processor time inconsistencies that may occur after performing standby-side loading in an asynchronous transmission switch.

According to the present invention, there is provided a method of matching the time of an operating processor and an standby processor of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication. A first step of receiving, by the side processor, a time of the standby side from the standby processor, and transmitting the time of the operation side and the time of the standby side received from the standby processor to the standby processor; And a second step of setting a reference time by using the time of the operation side and the standby side received in the first step and the current time of the standby side. A matching method is provided.

Description

Time synchronization method after standby loading in asynchronous transfer switch {Time synchronization method after standby loading in ATM switch}

The present invention relates to a method for resolving visual inconsistencies that may occur in a processor which is an essential part of an Asynchronous Transfer Mode (ATM) exchange. In particular, the present invention relates to a method that may occur when performing standby loading to ensure service continuity. A reference time discrepancy relates to a method of maintaining time continuity of a system when an operation side of a redundant processor changes.

In the conventional time coincidence method, the time of the standby processor is not considered because only the function of matching the times of the processors of each operating side is performed.

In other words, each processor of the operation side transmits its own time to the operation maintenance processor when the operation maintenance processor requests it, receives the reference time from the operation maintenance processor and sets its own time again, and the operation maintenance processor has its own hardware time. In addition, the present time is determined by comprehensively determining the external time provided from a specially designed time generating device or an operator terminal and the processor time received from each distributed processor, and the reference time is periodically distributed to each processor requiring the time information. Always share consistent visual information.

However, the operating processor and the standby processor have a hardware-independent structure. When the processor is redundantly switched, the operating system passes time information, but there may be a time delay during the switching procedure. There is a problem.

In addition, since the operating side and the standby processor do not share time with each other during the stand-by loading process, which operates independently, there is a problem that the continuity of the service cannot be guaranteed because the time mismatch is not corrected once. .

The present invention has been made to solve the problems of the prior art as described above, and relates to a method for resolving processor time inconsistencies that may occur during the waiting side loading procedure at the ATM exchange.

1 is a block diagram showing the configuration of an asynchronous transport exchange system to which the present invention is applied,

2a to 2d is a view showing an overview of the standby-side loading procedure of the asynchronous transfer mode switching system to which the present invention is applied,

3 is a flowchart illustrating a time coinciding procedure when the waiting side loading of the asynchronous transfer switching system according to the embodiment of the present invention is completed.

According to the present invention for achieving the object as described above, in the method of matching the time of the operation processor and the standby processor of the asynchronous transfer mode (ATM) switch is composed of processor duplication, After the waiting-side loading is completed, the operating processor receives the standby time from the standby processor, and transmits the operating time and the standby time received from the standby processor to the standby processor. Step 1; And a second step of setting, by the standby processor, a reference time by using the time of the management side and the standby side received from the management side processor and the current time of the standby side. After loading, a time matching method is provided.

In addition, a computer-readable recording medium recording a program capable of executing a method of synchronizing the time of an operating processor and an standby processor of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication. In the standby processor receives the standby time from the standby processor and transfers the operating time and the standby time received from the standby processor to the standby processor. Transmitting a first step; A program capable of executing a second step of setting, by the standby processor, a reference time according to the following [Equation 1] using the time of the management side and the standby side received from the management side processor and the current time. Provided is a computer readable recording medium having recorded thereon.

[Equation 1]

Where T _r denotes a reference time to be set, T _m denotes an operating processor time received from an operating processor in the first step, and T _ps denotes the time of the current standby processor itself. T _rs indicates the standby processor time received from the processor in the first step.)

In the following, with reference to the accompanying drawings, a preferred embodiment according to the present invention will be described in detail.

In the case of a general processor duplication transfer, the time information is not included in the transfer information transferred from the operation side to the standby side, so that no time discrepancy occurs. Because they operate as independent objects from each other, visual information may be different from each other. Therefore, if the waiting side loading procedure is completed and the waiting side can operate normally, the operation side receives and sets the reference time information and starts the function.

1 is a configuration diagram showing a configuration of an asynchronous transmission and switching system to which the present invention is applied.

The externally produced software package 101 is a system disk 107 via an input device such as a tape drive 105 or an optical disk drive 106 of an operator terminal 102 or directly via an externally connected Ethernet [103]. It is loaded into the switch and transmitted back into the switch via Ethernet 108, which is connected to an asynchronous transfer switch.

The transmitted software package is stored on a system disk 112 connected to the SCSI 111 (SCSI) to the operation maintenance processor 110 which oversees the operation and maintenance of the exchange. The operation maintenance processor reads the software package from the system disk and transmits the software package to its memory and the remaining processor 114 through the asynchronous transfer switch 113.

Each processor is redundant to increase system reliability, and can be used to perform standby loading for the purpose of reducing software package replacement time.

2A to 2D are diagrams illustrating an outline of a waiting side loading procedure of an asynchronous transfer mode switching system to which the present invention is applied.

2A is a general state in which normal redundancy is maintained, in which an operating processor 204 loads a package (A) and communicates with entities including other processors through an external processor network 201, and Perform the function. The standby processor 205 does not perform any actual operation, does not perform communication with the outside 203, and is only connected to the operating processor with a channel 206 to continuously track the storage location change of the operating side. We are preparing for a malfunction on the operating side.

Due to the high cost of processor downtime, the processor is redundant to reduce processor downtime, and if the current processor is down, it immediately transfers control to the standby, which keeps track of the processor's state memory and copies it. We want to ensure continuity. In order to shorten the loading time required to replace the software package, a method of preloading the software package to be changed on the standby side has been devised. This is called standby loading.

2B is a diagram illustrating a case where a new package is loaded into a processor, in which an operating processor 214 operates normally, and a communication 212 is normally performed with an external 211, but a standby processor is a channel connected to an operating processor. Break 216 and load a new package externally, such as an operational preservation processor. That is, the package (a) is loaded and operating in the processor on the operating side, and the package (b) is loaded in the standby processor.

FIG. 2C is a diagram illustrating switching a standby processor to a new operating processor and an existing operating processor to a standby processor after the new package (B) is completely loaded on the standby processor.

The package (B) is loaded and operated in the newly operated processor 225, and the package (A) loaded in the processor 224, which is the standby side, loses communication with the outside 222, and Channel 226 is also disconnected in a broken state. This state is not yet a complete processor redundancy state, but only a temporary test of the package (I).

In FIG. 2D, when the newly loaded package (B) is checked, the package (A) of the standby processor 234 is abandoned, and the storage of the operating processor 235 is copied through the channel 236 to complete. Create a processor redundancy state.

3 is a flowchart illustrating a time matching procedure when the waiting side loading of the asynchronous transfer mode switching system according to an embodiment of the present invention is completed.

First, when the waiting side loading is completed in step S321, in step S322, after reading its own time, the standby processor transmits a time request message to the operating side processor together with its own time.

Next, when the operating side processor receives the time request message from the standby processor in step S311, the operating side processor attaches the standby time information and its own time information to the standby processor in step S312.

After that, when the standby processor receives the standby time information and the operating time information from the operating processor in step S323, the standby processor reads the current time again to calculate the transmission delay time with the operating side in step S324. After setting the time as a reference time to the added time on the operation side, the waiting side loading is completed in step S325.

In general, the time interval between the time that a request is made by the standby processor and the time when the operating system reads its own time, and the time when the operating side reads its own time, when receiving the time information from the standby side. Even if the time interval of time is the same, there will be no technical problem.

Therefore, it may be regarded that the time of the middle point between the two times known by the waiting processor, the request time and the receiving time, is the time to be read by the operation side. Therefore, the exact time when the standby processor sets its own time is (operation time provided by the operation side) + (the current time to set the reference time based on the standby time at the time requested by the operation side and the time from the operation side. Half of the difference between the waiting times).

On the other hand, in step S324, the standby processor sets the reference time T _r through the calculation as shown in Equation 1 below based on the above-described technical concept.

[Equation 1]

In Equation 1, T _m represents an operating processor time received from the operating processor, T _ps represents the time of the current standby processor for setting a reference time, and T _rs represents the operating processor. Indicates the standby processor time received from the server.

As can be seen from the above equation, if theoretically, the operating time provided by the operating processor can be the reference time set by the standby processor, the case where T _ps and T _rs are the same, but in practice Since there is a slight time lapse in mutual data transfer between the side processor and the standby processor, the present invention sets the reference time in consideration of such time difference.

On the other hand, the present invention as described above is recorded on a computer-readable recording medium, it can be processed by a computer.

The present invention relates to a method for resolving visual inconsistencies that may occur after waiting loading of an asynchronous transmission exchange, wherein the visual inconsistencies can sometimes lead to performance degradation or errors of functions that are sensitive to visual flow, and furthermore, to the entire system. It can be threatening. Therefore, in the case of applying the present invention, even after performing the atmospheric loading, it is possible to satisfy the constant time coincidence and thus be safe from such a threat. In addition, changing the clock during operation is not recommended as a very dangerous procedure, and it is effective and stable to set it when the system or each processor is initialized.

The technical spirit of the present invention has been described above with reference to the accompanying drawings. However, the present invention has been described by way of example only, and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

In the method of matching the time of the operation processor and the standby processor of the asynchronous transfer mode (ATM) exchange configured with processor duplication, After the waiting-side loading is completed, the operating processor receives the standby time from the standby processor, and transmits the operating time and the standby time received from the standby processor to the standby processor. Step 1; And a second step of setting, by the standby processor, a reference time by using the time of the management side and the standby side received from the management side processor and the current time of the standby side. Visual matching method after loading. The method of claim 1, The setting of the reference time in the second step is based on the following equation. [Equation 1] Where T _r denotes a reference time to be set, T _m denotes an operating processor time received from an operating processor in the first step, and T _ps denotes the time of the current standby processor itself. T _rs indicates the standby processor time received from the processor in the first step.) In a computer-readable recording medium recording a program capable of executing a method of synchronizing the time of an operating processor and an standby processor of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication. , After the waiting-side loading is completed, the operating processor receives the standby time from the standby processor, and transmits the operating time and the standby time received from the standby processor to the standby processor. Step 1; A program capable of executing a second step of setting, by the standby processor, a reference time according to the following [Equation 1] using the time of the management side and the standby side received from the management side processor and the current time. A computer-readable recording medium that has recorded. [Equation 1] Where T _r denotes a reference time to be set, T _m denotes an operating processor time received from an operating processor in the first step, and T _ps denotes the time of the current standby processor itself. T _rs indicates the standby processor time received from the processor in the first step.)