KR100295762B1 - Method for shortening loading time in exchanger system - Google Patents

Abstract

The present invention relates to an exchange system, and more particularly, to a method for reducing the loading time progressed for each processor.

The present invention includes a database management system for sharing data for each processor, an operation and maintenance processor performing an operation and maintenance role, and a method for reducing the loading time of an exchange system having a plurality of processors. In response to the loading request being received from one of the plurality of processors, the loading request is examined and, in the case of an initial loading request, a processor status request message requesting information indicating the state of the processor is sent to the processor that generated the loading request. Receiving a processor status response message corresponding to receiving the processor status response message from the processor after transmitting the processor status request message, and receiving the processor status response message Transmitting processor loader data, database kernel group data, data and text size of processor load data to the processor, the OS operating system text transmitted from the operation and maintenance processor by the processor, Loading processor loader data, database kernel group data, data of processor load data, and text size into memory, the CLS operating system text, processor loader data, database kernel group data, and processor load A processor load data bin based on a process of executing the CLS operating system after loading the data and text size of data into a memory, and a text size of the loaded processor load data after executing the CRT operating system Calculating an inverse size, allocating a processor load data free area and a system buffer area to a corresponding area based on the calculated processor load data free area size; After allocating the processor loader block, the processor loader block is initialized.

Description

How to reduce loading time of exchange system {METHOD FOR SHORTENING LOADING TIME IN EXCHANGER SYSTEM}

The present invention relates to an exchange system, and more particularly, to a method for reducing the loading time progressed for each processor.

In general, the exchange system is implemented in a distributed structure that logically or physically distributes functions to perform complex and comprehensive functions by multiple processors performing simple functions in order to improve development and maintainability. Data base management system (DBMS: Data Base Management System) is operated. However, it is unreasonable to have a complete database in which all data is stored in its memory because every processor implementing the switching system requires only a part of the data of a complete database. Processor Load Data (PLD), which is divided into several parts, that is, part of a complete database, is referred to as an IPC from an Operation and Management Processor (OMP) as needed. It is used by loading through (Interprocessor Communication).

However, when the PLD is loaded by the processor requesting the loading from the OMP, an area for processing data that may occur during the actual processor operation, that is, an empty area in which no data exists, is allocated in addition to the PLD data. . Therefore, due to the limitation of the transmission speed and the amount of transmission of the IPC communication, it takes a long time to load, thereby causing a limitation in using other transmission lines by other processors.

In addition, the exchange system is implemented in a redundant structure so that the active side can upgrade the data to the standby side of the redundant structure without interrupting the service while the service is in operation. Performing the loading for the standby is called standby loading. When the standby side is transferred to the active side after the standby loading, there is a case in which the existing data that is not initialized at the standby loading is left and malfunctions. I did.

Accordingly, an object of the present invention is to provide a method for shortening the time for loading a loading program to a processor having a loading request.

The present invention for achieving the above object is provided with a database management system for sharing data for each processor, the operation and maintenance processor to perform the operation and maintenance role, and having a plurality of processors In the method for shortening the loading time of an exchange system, when a loading request is received from one of the plurality of processors, the loading request is examined, and in the case of an initial loading request, information indicating the state of the processor is sent to the processor that generated the loading request. Transmitting a request processor status request message, receiving a processor status response message corresponding to receiving the processor status response message from the processor after transmitting the processor status request message, and receiving the processor status response message After receiving Transmitting the OS-OS operating system text, processor loader data, database kernel group data, data and text size of the processor load data to the processor, and transmitting the CAL data transmitted from the operation and maintenance processor to the processor. Loading OS memory text, processor loader data, database kernel group data, processor load data data and text size into memory, the OS operating system text, processor loader data, database kernel Based on the group data, the process of loading the data and the text size of the processor load data into a memory, and executing the CLS operation system, and the text size of the loaded processor load data after executing the CRT operation system.Calculating a processor load data free area size, allocating a processor load data free area and a system buffer area to a corresponding area based on the calculated processor load data free area size, and When the processor loader block is executed after allocating the region and the system buffer region, the process includes initializing the allocated processor load data empty region.

1 is a block diagram showing the internal configuration of an exchange system;

2 is a block diagram showing a database management system of an exchange system;

3 is a memory map of a program loaded in the main processor of the exchange system.

4 is a flowchart illustrating an initialization loading process according to an embodiment of the present invention.

5 is a flowchart illustrating an application loading process according to an embodiment of the present invention.

6 is a flowchart illustrating a standby loading process according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

1 is a block diagram showing an internal configuration of an exchange system.

The exchange system is implemented with a Central Control Subsystem (CCS) 100, an Interconnection Network Subsystem (INS) 150, and an Access Switching Subsystem (ASS) 180.

The CCS 100 is a Peripheral Processor (PP) 101 that controls and monitors a plurality of devices requiring real time processing, and the exchange system such as billing, statistics, interfacing with an operator, database management, and the like. OMP (Operation and Maintenance Processor) (103) to perform the overall operation and maintenance functions of the disk (Disk) 105 for storing the input and output data under the control of the OMP (103) and And a magnetic tape (MT) 107 and a CRT 109, and an MMP (Man Machine Processor) 111 that is an input / output control processor that performs input / output matching with an operator. A combined display device CRT 113, a disk 115 for storing data generated on an operational service and external input / output data, and a printer for outputting predetermined data under the control of the MMP 111 ( PRT) ( And an interprocessor communication (IPC) for performing data communication between the PP 101, the OMP 103, and the MMP 111 and data communication with the INS 150. ).

The INS 150 is composed of a plurality of main processors (MPs) 151 and a PP 153 to perform data communication through the IPC 155 and to transmit data transmitted from the CCS 100. It connects to the ASS 180 through a Central Data Link Block (CDL) 157 to connect between the ASS 180 or between the ASS 1800 and the CCS 100. In addition, it performs the function of translating and switching the number of the incoming call of the exchange function of the exchange system.

The ASS 180 is composed of an ASP 181 and a PP 183 to perform data communication through the IPC 185, and is coupled to the INS 150 through a CDL 187 to perform data communication. .

2 is a block diagram showing a database management system of the exchange system.

The exchange system is basically composed of three subsystems: an Access Switching Subsystem (ASS) 100, an Interconnection Network Subsystem (INS) 200, and a Central Control Subsystem (CCS) 300. The ASS 100 performs a call processing function such as subscriber and relay line matching and call origination and reception, and is composed of a plurality of access switching processors (ASPs) 101. The INS 200 performs centralized call processing functions such as number translation and call configuration, and is composed of an INP (Interconnection Network Processor) 202 and a NTP (Number Translation Processor) 201. The CCS 300 performs a centralization function of operation and maintenance, and consists of an operation and maintenance processor (OMP) 301 and a man machine processor (MMP) 302.

The database management system (DBMS: DATAMS MANAGEMENT SYSTEM, hereinafter referred to as DBMS) of the exchange system having the configuration as shown in FIG. 1 may be provided to a processor for each subsystem to support a distributed structure composed of three subsystems. Distributed DBMS that manages data in a distributed fashion, including Data Base Transacion Group (DBTG), Data Base Query Group (DBQG), and Database Base Supporting Group (DBSG) It consists of five blocks: DBKG (Data Base Kenanl Group) and DBBG (Data Base Backup Group).

In addition, the electronic exchange DBMS supports a distributed function so that data can be distributed and mounted on multiple processors, and the data resides in main memory for real-time processing. Such a database is referred to as a processor load data (PLD). 30, and a plurality of processors constituting the exchange system request loading to the OMP 103 as necessary, and corresponding PLDs 30 through the IPC 119. ) Is loaded to execute the operation

3 is a memory map of a program loaded into the main processor of the exchange system.

4 is a flowchart illustrating an initialization loading process according to an embodiment of the present invention.

5 is a flowchart illustrating an application loading process according to an embodiment of the present invention.

6 is a flowchart illustrating a standby loading process according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 1 to 6.

First, when the switching system is powered on, i.e., initializes, the MP 151 transmits an initialization loading request to the OMP 103 (step 411). The OMP 103 transmits a processor status request message requesting status information of the processor to the MP 151. In step 413, the MP 151 checks the processor status and transmits a processor status response message to the OMP 103. The OMP 103 reads the PLD corresponding to the MP 151 from among the data stored in the disk 105, and the CROS (Concurrent Real-Time Operating System) text and data which are parallel real-time processing operating systems. Processor Loader (PL) text and data, database kernel group DBKG text and data, and data and text size of processor load data PLD are transmitted to the MP 151 (step 417). The PLD text size may include a size of actual data constituting the PLD and data generated during operation of the MP 151 (for example, a VLR which is a database having information on a location where a mobile station is currently located). Visitor Rocation Register) is an area designated to handle the location of the data as the mobile station roams the area. The size acquired by adding the size of the free area.

The MP 151 receives CROS text and data transmitted from the OMP 103, PL text and data, DBKG text and data, data and text size of the PLD, and loads them in a specific area of the memory. In step 419, the loaded CROS is executed (step 421). The executed CROS is calculated by subtracting the size of the PLD data from the text size of the PLD to calculate the size of the PLD free area (step 423). The size of the PLD free area is allocated to the corresponding size after the loaded PLD data area, and the system buffer area, which is an area designated for program management during operation, is allocated after the PLD free area is allocated. When the PL is executed after allocating the system buffer area (step 427), the allocated PLD free area is cleared and initialized (step 429).

Therefore, the initialization loading process as shown in FIG. 4 makes it possible to shorten the initialization loading time by allocating the PLD free area in the MP with the PLD text size without directly loading it from the OMP through IPC communication.

Secondly, as shown in FIG. 5, if there is an application loading request in the MP 151 (step 511), steps 425 to 425 of the initialization loading process described with reference to FIG. 4 are performed. If there is a loading process is the same as step 513 to step 525. However, when loading an application program, the PLD free area allocated in step 525 is not cleared. The reason for this is to keep the previous data in operation.

Third, when standby loading (SBY loading) occurs while the service is being performed on the active side of the MP 151 as shown in FIG. 6 (step 611), for example, an upgrade to improve service quality is performed. In this case, the MP 151 transmits a standby loading request to the OMP 103. The standby loading process performed correspondingly, that is, the processes from steps 613 to 629 are the same as the steps 413 to 429, which are the initialization loading processes shown in FIG. 4. When the service operation of the MP 151 is transferred from the active side to the standby side immediately after the end of the standby loading, the PLD free area is initialized during the standby loading operation, thereby causing malfunction. Can be prevented.

As described above, the present invention improves the transmission efficiency by shortening the loading time and shortening the loading time by allocating the PLD free area in the CROS of the MP by loading only the size of the MP without directly loading the PLD free area from the OMP to the MP. In addition, by performing initialization for the PLD free area during standby loading, it is activated directly after completion of loading to prevent malfunction due to data remaining in service operation.

Claims (6)

In the database management system for sharing data for each processor, the operation and maintenance processor performing an operation and maintenance role, and a method for reducing the loading time of an exchange system having a plurality of processors, Checking a loading request when a load request is received from one of the plurality of processors, and in the case of an initial loading request, transmitting a processor status request message requesting information indicating a state of a processor to a processor that generated the loading request. and, Receiving a processor status response message generated in response to receiving the processor status response message from the processor after transmitting the processor status request message; After receiving the processor status response message, transmitting CLS operating system text, processor loader data, database kernel group data, data and text size of processor load data to the processor; Loading, by the processor, the CLS operating system text transmitted from the operation and maintenance processor, processor loader data, database kernel group data, data and text size of processor load data into a memory; Executing the CAL OS operating system after loading the CAL OS operating system text, the processor loader data, the database kernel group data, the data of the processor load data and the text size into a memory; Calculating a processor load data free area size based on a text size of the loaded processor load data after executing the ROS operating system; Allocating a processor load data free area and a system buffer area to a corresponding area based on the calculated processor load data free area size; And allocating the processor load data free area and the system buffer area and then initializing the allocated processor load data free area when the processor loader block is executed. The method of claim 1, If the loading request generated by the processor is an application loading request, the operation and maintenance processor performs the loading process in the same manner as the initialization loading process and then does not perform the initialization of the allocated processor load data free area before loading the application program. Reducing the loading time of the exchange system, characterized in that to maintain the data of the same. The method of claim 2, The text size of the processor load data is the sum of the data size of the processor load data and the size of the processor load data free area designated for processing data generated during operation of the processor. Shortening method. The method of claim 3, The process of calculating the processor load data free area size based on the text size of the loaded processor load data after executing the CRS operation system subtracts the data size of the processor load data from the text size of the processor load data. Method for reducing the loading time of the exchange system, characterized in that. In the database management system for sharing data for each processor, the operation and maintenance processor performing an operation and maintenance role, and a method for reducing the loading time of an exchange system having a plurality of processors, When a standby loading request is received from one of the plurality of processors, transmitting a processor status request message requesting information indicating a state of a processor to a processor that has generated the standby loading request; Receiving a processor status response message generated in response to receiving the processor status response message from the processor after transmitting the processor status request message; After receiving the processor status response message, transmitting CLS operating system text, processor loader data, database kernel group data, data and text size of processor load data to the processor; Loading, by the processor, the CLS operating system text transmitted from the operation and maintenance processor, processor loader data, database kernel group data, data and text size of processor load data into a memory; Executing the CAL OS operating system after loading the CAL OS operating system text, the processor loader data, the database kernel group data, the data of the processor load data and the text size into a memory; Calculating a processor load data free area size based on a text size of the loaded processor load data after executing the ROS operating system; Allocating a processor load data free area and a system buffer area to a corresponding area based on the calculated processor load data free area size; Allocating the processor load data free area and the system buffer area and executing a processor loader block; And initializing the allocated processor load data free area after executing the processor loader block, and then waiting. The method of claim 5, And switching the service directly when the processor which has performed the loading in the standby state after completing the standby loading is switched to the processor which has completed the standby loading.