KR20020041130A - method of automatically optimizing a performance of the communication system - Google Patents

Abstract

PURPOSE: A method for automatically optimizing the performance of a communication system is provided to make the operating system of each individual board periodically analyze values associated with the performance of its own board and automatically control a system environment until a preset optimum variable value is settled, in a system containing a plurality of individual board. CONSTITUTION: After an individual board is installed in a system, a processor detects log data associated with the performance variable of an embedded system in an initial state(S1,S2). The processor compares the detected log data with preset optimum reference data and applies the obtained optimized data to the system(S3). Then the processor judges whether a processing load state(X) based on the present performance variable optimization work reached more than a preset processing load value(R)(S4). If the processing load state(X) reached more than the preset processing load value(R), the processor returns to the log data detection step(S2) after stopping the present performance variable optimization work until a required processing load value or less(S5). However, in case that the processing load state(X) didn't reach the preset processing load value(R), the processor, the processor judges that the present detection time(TX) reached a preset reference time(TR)(S6). If the present detection time(TX) reached the preset reference time(TR), the processor compares the presently optimized performance variable value with each preset optimized performance value(S7).

Description

Method of automatically optimizing a performance of the communication system

The present invention relates to an automatic performance optimization method of a communication system. In particular, in a system in which a plurality of individual boards are embedded, the operating system of each individual board periodically analyzes variables related to the performance of the individual boards to reach a predetermined optimal variable value. By automatically controlling the environment of the system, it is an automatic performance optimization method of a system having an embedded operating system in which the individual boards are optimized for a specific system environment.

In general, communication systems constituting a telecommunication network can be used in a variety of systems according to the type of service provided, largely classified by the terminal device installed in the service user's home, and the traffic passing between two points apart In order to efficiently utilize the transmission facility, there is an exchange system that selectively connects communication lines between two terminal devices by changing the connection at the request of users. In addition, in recent years, such technology has been rapidly developed by incorporating digital technology. In particular, such digital technology is applied to the exchange technology field in the mid-1970s. It has revolutionized the multiplexing of wired transmission systems by introducing the digital relay switch called 4ESS.

However, such switch systems are usually installed with a plurality of internal boards and a complex system environment, for example, to operate on a variety of applications and hardware and user access patterns. For example, as shown in FIG. 1, an exchange system is installed by installing individual boards 70-72 in a plurality of systems 73, and the individual boards 70-72 are installed on a bus or communication connection line 74. Connect internally appropriately.

In addition, since each board has its own performance and environment, the operating system designer or a professional inputs and adjusts the environment variables of these boards manually. However, if the operating system is reinstalled or rebooted, The current service is suspended and then executed. The operating system of each individual board 70-72 then executes the operation of the operating system in accordance with the performance control function according to the input value adjusted by the expert or operating system designer.

However, the method of adjusting the performance control parameters of the conventional embedded system as described above requires stopping the service of the system or rebooting the system in order to measure the performance of the individual boards 70-72. Inherent in the system, it was very difficult to measure the performance of each individual board.

In addition, this method allows the operating system designer or the expert to shut down the system to optimize the performance of the individual boards and then manually adjust the input parameters related to the performance related system environment (application, hardware, user access patterns, etc.). This causes a problem of significantly increasing the maintenance cost of the system.

Accordingly, the present invention has been invented to solve the above-mentioned problems. In a system in which a plurality of individual boards are installed, the operating system of each individual board periodically analyzes variables related to the performance of the individual boards to a predetermined optimal variable value. By controlling the system environment automatically until this, the purpose is to provide an automatic performance optimization method of the communication system in which the individual boards are optimized for a specific system environment.

Another object of the present invention is to eliminate the need to manually change the performance control variable value of each board to adjust the performance of the embedded individual boards to the operating environment of a particular system accordingly, therefore, existing service interruption or system It is to provide an automatic performance optimization method of communication system that does not require booting.

In accordance with another aspect of the present invention, a log data detection step of detecting log data related to a performance variable of an embedded system every cycle in an operating system of an embedded system, and log data related to the embedded system after the log data detection step are performed. The log data application step of applying the calculated optimized data to the system after comparing and analyzing the preset optimal reference data, and the value of the performance variable that is currently optimized after the log data application step, is applied to each preset performance variable. If there is no change compared to the optimal value, it is determined that the performance of the embedded system is optimized, and the optimization of the performance variable is ended, and the value of the currently optimized performance variable is compared with the optimal value of each preset performance variable. In this case, return to the log data detection step to optimize performance variables. Providing automatic performance optimization of a communication system consisting of a performance parameter optimization step to continue executing the job.

1 is an explanatory diagram for explaining a performance improvement operation of a conventional embedded system.

2 is an explanatory diagram of an embedded system to which the method of the present invention is applied.

3 is a flowchart of the present invention.

<Detailed Description of Codes>

1: ROM 2: Individual board

3 processor 4 flash memory

5 device unit 6 system

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The embedded system to which the method of the present invention is applied is analyzed and optimized by analyzing the performance of the individual boards 2A by log data related to the performance optimization of the embedded system recorded in the ROM 1 as shown in FIG. A processor 3 for controlling the overall function of 2A), a flash memory 4 for constructing an optimization algorithm of the individual boards 2A according to the analysis and optimization control signals of the processor 3, and the processor 3 And the device units 5A-C which perform network functions with other individual boards 2B and 2C according to the function control signal of the &quot;

Here, the structure of the log data is a function that can be used to create a variety of performance variables related to the performance of the embedded system, and the log data for controlling the selection of the performance variable in the application program and the operating system, and the respective performance variables It includes a function that can be selected by the operating system and a control function that periodically changes and applies performance variables by analyzing log data in a state where the load of the embedded system is low.

Next, the method of the present invention applied to the above-described embedded device will be described.

The system of the individual boards to which the method of the present invention is applied (2A-C) has a specific purpose. For example, if a plurality of built-in boards are installed in a system such as an exchanger, each of the individual boards 2A-C has a given purpose in the exchange system. In this case, the processor 3 of the installed individual board 2A is constructed by the method of the present invention on the flash memory 4 as shown in FIG. 3 embedded in the ROM 1. Optimize the performance of individual boards.

That is, the processor 3, after the individual board 2A is installed in the system 6, proceeds from the initial state S1 to the log data detection step S2 to detect log data related to the performance variables of the embedded system. After the log data detection step (S2), the log data application step (S3) is performed to compare and analyze the log data related to the embedded system with predetermined optimal reference data, and then apply the calculated optimized data to the system. Let's do it.

For example, the processor 3 of the individual board 2A calculates log data in order to detect performance variable values associated with a specific system environment, that is, application program, hardware, and user access pattern, which are built in every cycle. The log data is composed of functions such as current load, program counter value, module execution time, current number of users, current demand amount, current request type, and the like. The processor 3 calculates the log data as described above, and compares the log data related to the calculated system performance with the reference values of the variables for which the variable values are optimally set. Optimized data values of each performance variable are applied to the system and optimized.

On the other hand, after the log data application step (S3) proceeds to the overload determination step (S4) to determine whether the processing load state (X) according to the current performance variable optimization task has reached a predetermined processing load value (R) or more. At this time, when the detected processing load (X) reaches the predetermined processing load value (R) or more as a result of the determination during the overload determination step (S4), the operation pause step (S5) is performed to optimize the currently running performance variable. The operation is stopped until the predetermined processing load value becomes less than the value, and then the operation returns to the log data detection step S2 to repeat the loop.

However, when it is determined during the overload determination step S4 that the detected processing load X has not reached the predetermined processing load value R or more, the process proceeds to the main determination step S6 and the current detection time ( It is determined whether TX) has reached the preset reference time TR. When the current detection time TX reaches the preset reference time TR as a result of the determination in the period judging step S6, the process proceeds to the performance parameter optimization judging step S7. However, if the current detection time TX does not reach the preset reference time TR as a result of the determination during the period judging step S6, the process returns to the log data detection step S2 and continues to optimize the performance variable. Perform.

Meanwhile, in the performance variable optimization determination step (S7), if there is no change compared to the optimal value of each preset performance variable, the performance variable optimization task determines that the performance of the embedded system is optimized. To exit. However, when the performance variable optimization determination step (S7) is performed and the value of the currently optimized performance variable is compared with the optimum value of each preset performance variable, the process returns to the log data detection step (S2). Continue to optimize your variables.

That is, the operating system of the processor 3 of the embedded individual board 2A performs the performance variable optimization task when the processing load of the current performance variable optimization task reaches a predetermined load value during the execution of the performance variable optimization task. Pause and retry until The operating system determines that the performance of the embedded system is optimized when there is no change compared to the optimal value of each performance variable that is currently optimized during the performance variable optimization task that is executed at regular intervals. Terminate variable optimization. However, if there is a change in the value of the currently optimized performance variable compared to the optimum value of each preset performance variable, the performance variable optimization of the above process is repeatedly performed.

Therefore, according to the present invention as described above, since the individual systems embedded in a specific purpose system having a variety of complex structures to adjust the performance variable values according to the system environment having different types of hardware, application programs and user access patterns It can be optimized to suit a particular system environment.

As described above, the present invention relates to an automatic performance optimization method for a system having a built-in operating system. In particular, in a system in which a plurality of individual boards are embedded, the operating system of each individual board periodically analyzes variables related to the performance of the individual boards. By controlling the system's environment automatically until the optimal value is set, the individual boards are optimized for the specific system environment.

In addition, according to the present invention, in order to adjust the performance of the embedded individual boards to the operating environment of a particular system, the system expert does not need to manually change the performance control variable values of the individual boards at every cycle, so the existing service is performed accordingly. Not only does it eliminate the need for downtime or rebooting the system, it also has the advantage of significantly reducing system maintenance costs by eliminating the need for additional variable adjustments by such experts.

Claims (2)

A log data detection step of detecting log data related to the performance variables of the communication system every cycle, and after the log data detection step, the log data related to the embedded system is compared with a predetermined optimal reference data and then the calculated optimization The log data application step of applying the data to the system and the value of the performance variable currently optimized after the log data application step are compared with the optimum value of each preset performance variable. If it is determined that the performance variable optimization is finished and the value of the currently optimized performance variable is compared with the optimum value of each preset performance variable, the process returns to the log data detection step and continues to optimize the performance variable. It is characterized by consisting of the performance variable optimization execution step to perform Automatic performance optimization of communications systems. The method according to claim 1, wherein after the log data application step, it is determined whether the processing load state (X) according to the current performance variable optimization operation reaches a predetermined processing load value (R) or more, and the detected processing load (X) is If the processing load value (R) is exceeded, the performance variable optimization task currently executed is stopped until the predetermined processing load value becomes less than the previous stage, and the process returns to the log data detection step and repeats the loop. An automatic performance optimization method of a communication system, characterized by further comprising a stop step.