KR100501137B1 - Statistics collecting method using shared-memory - Google Patents

Abstract

The present invention relates to a method for collecting statistics using allocated memory for collecting, calculating, and outputting data using a memory allocated by a home location register of a mobile communication network.

A building step of constructing a statistical area in which the allocated memory is independently blocked;

An indicator allocating step of allocating an indicator of each allocated memory to each corresponding processor, a data input step of each processor inputting data into the allocated memory, and when the statistical processor is operated, data is allocated from the allocated memory. It comprises an input step of collecting, arithmetic processing, and saving, a processing step of collecting data from a requested allocated memory and writing a message if there is an operator's statistical output command, and an output step of outputting the message.

By this, it is possible to execute independently without the help or influence of the main memory database related elements, and by blocking at the time of allocated memory generation, the influence of the statistical elements is reduced, and statistical output errors can be detected more quickly and accurately.

Description

Statistics Collection Method Using Allocated Memory {STATISTICS COLLECTING METHOD USING SHARED-MEMORY}

The present invention relates to a method for collecting statistics using allocated memory for collecting, calculating, and outputting data using a memory allocated by a home location register of a mobile communication network.

In the related art, as shown in FIG. 1, the statistical processor 30 (a function of processing the operation result data of the designated processor and outputting the data in a manner desired by the user) outputs necessary data to the designated statistical area 25 of the main memory database 20. If the data is collected in the main memory database 20 and then stored in the predetermined statistical area 25 of the main memory database 20, the data is read from the main memory database 20 and converted into a predetermined shape by the monitor or printer. Output to (40).

The statistical target processors 10, 11, and 12 store the result values calculated in advance in the operation of the statistics processor 30 in the promised statistical area 25 of the main memory database 20 in order to pass them to the statistical processor 30. However, before this process is performed, the main memory database 20 needs to operate a tool called a system load data generator (SLDG) to secure necessary database space according to system and processor requirements.

After the SLDG is executed, a memory area of a processor using the main area database 25 as well as the 'statistical area' 25 formatted in the main memory database 20 is generated.

The statistics area is divided into six statistical elements. If any part of the error occurs, the user cannot know where the error occurs. This is because the statistical domain is conceptually divided into six statistical elements, and in software, there is no boundary separation. In fact, the input and output of the data of FIG. 1 should be moved from the first address of the statistics area 25 to a position (a, b, c, d, e, f) determined according to the type of statistics to be inputted or outputted. Error occurs when the configuration and size of the shared-memory memory do not match. In addition, after identifying and correcting the cause of such an error, it is cumbersome to restart the SLDG tool again. In addition to these errors, many of the statistics must be changed from time to time to accommodate the various requests of the project client. Eventually, after restructuring, the SLDG can be started again, causing all other processor workers to stop working.

Accordingly, the present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to replace the existing main memory database (Main Memory Data Base) in statistics and to eliminate the SLDG process, allocated memory (Shared It provides a method of collecting statistics using allocated memory that collects, computes, and outputs data using -Memory.

As an example of a method for collecting statistics using allocated memory for achieving the object of the present invention,

A building step of constructing a statistical area in which the allocated memory is independently blocked;

An indicator allocation step of allocating an indicator of each allocated memory to each corresponding processor;

A data input step in which each processor inputs data into the allocated memory;

When the statistics processor is operated, an input step of collecting data from the allocated memory, processing and saving the data;

A processing step of collecting data from the requested allocated memory and writing a message, if the operator has a statistical output command;

Output stage

It consists of.

With this arrangement, it is possible to execute independently without the help or influence of main memory database related elements, and to block the generation of allocated memory to reduce the influence of statistical elements and to detect statistical output errors more quickly and accurately. .

The present invention uses shared memory to replace the existing main memory database and to eliminate the SLDG process in the method of collecting statistics. This assumes that an allocated memory size of A has been set using the allocated memory function, and this allocated memory area of size A has an indicator that points to an address that moves within that range.

If the first address of area A is 100, the range of address values that this indicator can have is from 100 to (100 + A) -1. If you accidentally move this directive out of this range, the program exits with a warning. Therefore, if six statistical elements, which are conceptually represented in the main memory database, are allocated to each of six allocated memory areas, an error occurs in one place without any effect on other statistical elements. The place is easily identified by a simple quote. And at the beginning of allocated memory creation, the indicator is located at the head of the memory.

For example, if each of the six created allocated memory indicators is U, V, W, X, Y, and Z, then each of these indicators is passed to each of these six processors, and each processor is addressed to the address it points to. Pass the result of.

Hereinafter, a method for collecting statistics according to the present invention will be described with reference to FIG. 4.

In order to convert the statistical part that depended on the Main Memory Data Base into shared memory, and to block any unnecessary effects between statistical elements, the allocated memory is independently blocked as shown in FIG. One statistical area 60 should be constructed (S100).

In FIG. 2, six allocated memories 70 and 71 are provided in sizes necessary for each of the statistical processors 50, 51, 52, 53, 54, and 55 to replace the statistical part database configured in the existing main memory database. , 72, 73, 74, 75). In general, the size of the allocated memory is larger than the actual size. And the indicators A, B, C, D, E, and F representing the first address of each allocated memory, A, B, C, D, E, and F processors (50, 51, 52, 53, 54, 55). (S103).

In this case, if the size of the allocated memory of A is 500 and the first address is 100, the address indicated by A's initial indicator is 100. And the last address is 599 (that is, by 100 + 500 -1).

If you go beyond this range, the program exits with a warning.

When six allocated memories 70, 71, 72, 73, 74, and 75 are generated, the six processors 50, 51, 52, 53, 54, and 55 into which the indicators of the respective allocated areas are input are operated. (S105). When the designated time arrives, each processor records data values counted during the period indicated on the program at the address indicated by the indicator (S107).

At this time, the address of the indicator has been moved to a predetermined address according to the contents of the data and the program.

This point is now where the data received from the processors 50, 51, 52, 53, 54, 55 will be written, and even if the movement of these indicators is out of range due to a program error, the indicator will never reach the specified range of allocated memory. (70, 71, 72, 73, 74, 75) will stay somewhere within range.

As shown in the example of FIG. 3, when the indicator indicating the first address 100 of A is moved to 500 according to the contents of data transmitted by the processor A 50, the address of 500 is the first to be inputted with this data. First address. Even if the size of the data is 200, the indicator records the data from 500 to 699 and does not move to the 700 position. Instead, the indicator records from 500 to 599 and returns to its first address 100 again. For the remaining 100, 199 (beginning with 100) is recorded and the indicator indicates 200. As a result, even if an error occurs, the error occurs only in the block in which it occurred.

While six processors (50, 51, 52, 53, 54, 55) write data into their allocated memory (70, 71, 72, 73, 74, 75), the TSTAT (the processor responsible for statistics) Name) collects the data input from other A ~ F processors at the place of allocated memory at the pre-programmed time and performs the calculation operation according to the programmed program and then returns the processed data to the allocated memory according to the program. Remember to.

The data processed at the required place among the allocated memory areas according to the user's command (S107) or the predetermined time (S111) is collected and converted into a predetermined output form (S109), and output to the monitor or printer (S115).

As described above, the method of collecting statistics using the allocated memory according to the present invention can be executed independently without the help or influence of the main memory database related elements, and the influence of the statistical elements is reduced by blocking the allocated memory. And statistical output errors can be detected more quickly and accurately.

Of the processors that use the Main Memory Database, which is usually provided in hardware, when the main memory database avoids time lags or errors that occur in its software configuration, and requires fast retrieval of errors, or The present invention is useful when the data exchange with the main memory database is relatively small and the structural change of the program to be used is so severe that the main memory database is frequently reconstructed frequently.

1 is a conceptual diagram of a conventional method for collecting statistics

2 is a conceptual diagram of a method for collecting statistics using allocated memory according to the present invention;

3 is a diagram illustrating a process of inputting data into a corresponding allocated memory from a processor;

4 is a flowchart of a method for collecting statistics using allocated memory according to the present invention.

<Explanation of symbols for main parts of drawing>

10, 11, 12, 50, 51, 52, 53, 54, 55: Processor

20: main memory database

25: statistics area 30, 80: statistics processor

40: monitor / printer

70, 71, 72, 73, 74, 75: allocated memory

Claims (4)

A building step of constructing a statistical area in which the allocated memory is independently blocked; An indicator allocation step of allocating an indicator of each allocated memory to each corresponding processor; A data input step in which each processor inputs data into the allocated memory; When the statistics processor is operated, an input step of collecting data from the allocated memory, processing and saving the data; A processing step of collecting data from the requested allocated memory and writing a message, if the operator has a statistical output command; Output stage Statistics collection method using the allocated memory, characterized in that consisting of. The method of claim 1, And the indicator is located at the head of the memory at the beginning of the allocation of the allocated memory. The method of claim 1, In the building step, generally, the size of the allocated memory is larger than the actual size. The method of claim 1, And if there is no output command of the operator in the processing step, when a predetermined time is reached, periodically generating and outputting a statistical output message.