JP2004030311A - Method for dynamically changing parameter, its system and its control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for dynamically changing a parameter, a system for dynamically changing the parameter and a program for control of dynamical change of the parameter which maximumly bring about the execution performance of a system by dynamically changing parameter values about the performance of the system. <P>SOLUTION: A performance information display part 24 makes a performance monitoring terminal 2 display a parameter about the system performance for setting an operating environment of the system and operating information showing the operating state of a host computer 1 during the operation of the system. A performance information change processing part 25 receives a change request for a set value of the parameter from the information monitoring terminal 2. A setting change reflection processing part 14 of an OS 10 reflects a change value of an SG (system generation) parameter on system management by a system management part 11 of the OS 10 while the system operates on the basis of the change value of the SG parameter of the change request received by the performance information change processing part 25. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a parameter dynamic change method, a parameter dynamic change system, and a parameter dynamic change control program for dynamically changing a set value of a parameter relating to system performance during system operation.
[0002]
[Prior art]
When various systems are constructed using a host computer, various SG (system generation) parameters are set according to the operating environment of the system. The SG parameters include the hardware configuration such as the capacity of the CPU of the host computer, the capacity of the storage device, the arrangement of files, and the software configuration such as application software used in the system in order to maximize the execution performance of the system. Taking this into consideration, a system engineer or the like tunes to an optimum value.
[0003]
However, there are various factors as described above for determining the optimal value of the SG parameter. Therefore, it is difficult to predict the optimal value of the SG parameter in consideration of all the factors. Even if the value of the SG parameter calculated on the desk is set, the system does not operate properly or the execution performance is maximized. In some cases, this cannot be achieved. Therefore, conventionally, a method for dynamically setting a parameter to an optimum value has been proposed.
[0004]
As a conventional parameter setting method, for example, there is a method disclosed in Japanese Patent Application Laid-Open No. 9-153000. In this conventional method, an optimum transfer rate is calculated while monitoring the transfer rate of each terminal during operation of the system, and parameters are set based on the calculated transfer rate. According to such a configuration, the parameters of the system can be reset according to the data transfer rate, and the system can be dynamically reconfigured.
[0005]
[Problems to be solved by the invention]
By the way, the execution performance of the system depends on whether the SG parameters referred to during the operation of the system, such as the number of concurrently executing jobs of the CPU and the memory frame of the memory (the ratio between the system area and the batch area), are set to optimal values. It has a significant effect. However, in the conventional method, the system parameters are set based on the data transfer rate, and according to the operation status of the host computer when the system is operating, for example, the CPU usage rate or the memory usage amount, It does not dynamically change parameters relating to system performance to optimal values. Therefore, the conventional method is applied to various systems according to a request of a user (customer), and cannot improve the execution performance of such a system.
[0006]
The present invention has been made in order to solve the above-described problems, and the execution performance of various systems can be maximized by dynamically changing the values of parameters related to the performance of the system. It is an object to obtain a dynamic parameter change method, a dynamic parameter change system, and a dynamic parameter change control program.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a method for dynamically changing a parameter according to the present invention obtains a parameter relating to the performance of a system for setting an operating environment of the system, and obtains operation information indicating an operation status of a host computer during operation of the system. Obtain and display the obtained parameter and operation information on the monitoring terminal, accept the change of the parameter setting value, and when there is a request for changing the parameter setting value from the monitoring terminal, the change value of the requested parameter Is reflected in the system management of the operating system of the host computer while the system is operating.
[0008]
If the change in the parameter related to the performance of the system is a change in the number of concurrently executing jobs, the number of concurrently executing jobs for scheduling used for job management of the operating system may be reduced and reflected in the system management. According to such a configuration, the CPU usage rate can be reliably reduced, and as a result, the CPU can be used efficiently.
[0009]
The number of concurrently executing jobs may be reduced by holding the jobs. According to such a configuration, the number of concurrently executing jobs can be reliably reduced.
[0010]
Before holding the job, it may be determined whether or not the hold is permitted for the job. According to such a configuration, it is possible to prevent the number of jobs that affect system management from being reduced.
[0011]
If the parameter change related to system performance is a change in the setting value of the ratio of the system area and the batch area of the memory, change the setting value of the ratio of the system area and the batch area that is referenced in the memory management of the operating system. May be reflected in system management. According to such a configuration, the number of roll-in / roll-out times of the memory can be reliably reduced, and as a result, the memory can be used efficiently.
[0012]
Before changing the set value of the ratio between the system area and the batch area, it may be determined whether or not the capacity of the system area does not fall below the limit value. According to such a configuration, it is possible to prevent the capacity of the memory from being smaller than the system area to be secured.
[0013]
The changed parameter setting values may be recorded in a file, and the setting values recorded in the file may be referred to when the operating system performs system management. According to such a configuration, it is possible to perform system management based on the changed parameter setting values at the time of next system startup.
[0014]
The parameter dynamic change system of the present invention is installed in a host computer, and displays, on a monitoring terminal, parameters relating to the performance of the system for setting the operating environment of the system and operation information indicating the operation status of the host computer during operation of the system. A monitoring processing unit having a display execution unit for causing the setting change receiving unit to receive a request to change a parameter set value from the monitoring terminal; and a monitoring unit that is installed in the host computer and receives the change request parameter received by the setting change receiving unit. Setting change reflection processing means for reflecting the change value to the system management of the operating system of the host computer while the system is operating.
[0015]
When the change in the parameter related to the performance of the system is a change in the number of concurrently executed jobs, the setting change reflection processing means is configured to reduce the number of concurrently executed jobs in scheduling used for job management and reflect the same in the system management. May be. According to such a configuration, the CPU usage rate can be reliably reduced, and as a result, the CPU can be used efficiently.
[0016]
The setting change reflection processing means may be configured so as to reduce the number of concurrently executed jobs by holding the job. According to such a configuration, the number of concurrently executing jobs can be reliably reduced.
[0017]
Before the job is held, the setting change reflection processing unit may be configured to determine whether the job is permitted to be held. According to such a configuration, it is possible to prevent the number of jobs that affect system management from being reduced.
[0018]
If the change of the parameter related to the system performance is a change of the set value of the ratio of the system area and the batch area of the memory, the setting change reflection processing means sets the set value of the ratio of the system area and the batch area referred to in the memory management. May be changed and reflected in the system management. According to such a configuration, the number of roll-in / roll-out times of the memory can be reliably reduced, and as a result, the memory can be used efficiently.
[0019]
The setting change reflection processing means may be configured to determine whether the capacity of the system area does not become less than the limit value before changing the set value of the ratio of the system area and the batch area. According to such a configuration, it is possible to prevent the capacity of the memory from being smaller than the system area to be secured.
[0020]
The monitoring processing unit may include a setting change recording unit that records the set value of the changed parameter in a file that records the set value of the parameter that is referred to when the system management is performed by the operating system. According to such a configuration, it is possible to perform system management based on the changed parameter setting values at the time of next system startup.
[0021]
The parameter dynamic change control program of the present invention obtains parameters related to the performance of the system for setting the operating environment of the system, obtains operation information indicating the operation status of the host computer during operation of the system, and obtains the obtained parameters. And display the operation information on the monitoring terminal, and receive a setting change accepting process for accepting the change of the parameter setting value, and when there is a request for changing the parameter setting value from the monitoring terminal, the change value of the requested parameter is changed. On the basis of this, the host computer is caused to execute a setting change reflection process to be reflected in the system management of the operating system of the host computer while the system is operating.
[0022]
In the setting change reflection process, if the change in the parameter related to the performance of the system is a change in the number of concurrently executing jobs, the number of concurrently executing jobs in scheduling used for job management of the operating system is reduced and reflected in the system management. You may do so. According to such a configuration, the CPU usage rate can be reliably reduced, and as a result, the CPU can be used efficiently.
[0023]
The number of concurrently executing jobs may be reduced by holding the jobs. According to such a configuration, the number of concurrently executing jobs can be reliably reduced.
[0024]
Before holding the job, it may be determined whether or not the hold is permitted for the job. According to such a configuration, it is possible to prevent the number of jobs that affect system management from being reduced.
[0025]
In the setting change reflection processing, if the change of the parameter related to the system performance is the change of the set value of the ratio of the system area and the batch area of the memory, the ratio of the system area and the batch area referred to by the memory management of the operating system The setting value may be changed and reflected in the system management. According to such a configuration, the number of roll-in / roll-out times of the memory can be reliably reduced, and as a result, the memory can be used efficiently.
[0026]
Before changing the set value of the ratio between the system area and the batch area, it may be determined whether or not the capacity of the system area does not fall below the limit value. According to such a configuration, it is possible to prevent the capacity of the memory from being smaller than the system area to be secured.
[0027]
The host computer may also execute a parameter recording process of recording the changed parameter setting values in a file that records the parameter setting values that are referred to when the operating system performs system management. According to such a configuration, it is possible to perform system management based on the changed parameter setting values at the time of next system startup.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of the dynamic parameter change system of the present invention. As shown in FIG. 1, the dynamic parameter change system includes a host computer 1 and a performance monitoring terminal 2.
[0029]
In the configuration shown in FIG. 1, a host computer 1 is a computer that executes a large-scale calculation process, a network control process, and the like in a system constructed by interconnecting a plurality of terminals and the like. As shown in FIG. 1, the host computer 1 includes an operating system (hereinafter, referred to as an OS) 10, a performance monitoring job 20, an SG parameter input file 30, and a log output file 40.
[0030]
A hardware configuration such as a CPU, a memory, and a system disk (hard disk) in the host computer 1 and a software configuration such as application software introduced and used in the host computer 1 are generally provided in the host computer 1. The illustration is omitted because it is the same as the general configuration.
[0031]
The OS 10 is software that manages a computer system and provides a basic user operation environment. The OS 10 includes a system management unit 11, an operation information collection unit 12, a data output unit 13, and a setting change reflection processing unit 14, as shown in FIG.
[0032]
The system management unit 11 refers to the set values of the SG parameters recorded in the SG parameter input file 30 and manages files (recording on a hard disk or the like and managing the same), memory management (allocation of a memory area used by application software, etc.). ), Job management (management of job execution order and priority), device management (control of various hardware such as a keyboard, a mouse, and a printer).
[0033]
The operation information collection unit 12 collects (collects) operation information indicating the operation status of the CPU and the memory while the system is operating, for example, information indicating the CPU usage rate and the memory usage (see FIGS. 3 to 5). ). The data output unit 13 outputs the operation information collected by the operation information collection unit 12 to the performance monitoring processing job 20 based on the request from the performance monitoring processing job 20. When the setting value of the SG parameter related to the performance of the system is dynamically changed, the setting change reflection processing unit 14 controls the reflection processing of the setting value of the changed SG parameter.
[0034]
The OS 10 has various functions such as network and communication management in addition to the functions 11 to 14 described above, but functions not related to the dynamic change processing of the SG parameters are not shown. are doing.
[0035]
The performance monitoring job 20 is software for monitoring the execution performance of the system and realizing dynamic changes of the SG parameters related to the performance of the system. As shown in FIG. 1, the performance monitoring processing job 20 is connected to the performance monitoring terminal 2. The performance monitoring processing job 20 includes a timer unit 21, a performance information acquisition unit 22, a performance information editing unit 23, a performance information display unit 24, a performance information change processing unit 25, and a performance information change log unit 26.
[0036]
The timer unit 21 is an interval timer that starts the performance monitoring processing job 20 at an interval (for example, one hour, two hours, or the like) set in advance by the user. The performance information acquisition unit 22 acquires the set values of the SG parameters recorded in the SG parameter input file 30, and acquires the operation information collected by the operation information collection unit 12 of the OS 10. Hereinafter, the set values of the SG parameters relating to the performance of the system and the operation information of the host computer 1 are referred to as “performance information”.
[0037]
The performance information editing unit 23 sets a predetermined value in the SG parameter of the SG parameter input file 30 according to a user operation, and edits the set value of the already set SG parameter. The performance information display unit 24 transmits the performance information such as the set value of the SG parameter and the operation information acquired by the performance information acquisition unit 22 to the performance monitoring terminal 2 and displays the screen on the screen.
[0038]
The performance information change processing unit 25 changes the setting value of the SG parameter transmitted from the performance monitoring terminal 2 in order to cause the setting change reflection processing unit 14 of the OS 10 to execute the reflection processing of the SG parameter. Is output to the setting change reflection processing unit 14 of the OS 10. Further, the performance information change processing unit 25 changes the set value of the SG parameter recorded in the SG parameter input file 30 based on the setting change information transmitted from the performance monitoring terminal 2 during or after the operation of the system ( Update. The performance information change log unit 26 outputs the setting change information transmitted from the performance monitoring terminal 2 to the log output file 40 as log information (see FIG. 6) regarding the setting change of the SG parameter, and causes the log output file 40 to record the information.
[0039]
The SG parameter input file 30 is a file for recording the set values of the SG parameters of the system. Although there are many SG parameters (for example, several hundreds) of the system, in the present invention, as examples of the parameters relating to the performance of the system, the number of concurrently executing jobs of the CPU and the memory frame of the memory (the ratio between the system area and the batch area) Is raised. The log output file 40 is a file for recording the log information regarding the setting change of the SG parameter output from the performance information change log unit 26.
[0040]
The performance monitoring terminal 2 is a terminal such as a personal computer for an operator to monitor the execution performance of the system. The performance monitoring terminal 2 is connected to the monitoring job 20 and performs data communication with the performance monitoring job 20. The performance monitoring terminal 2 displays the performance information transmitted from the performance monitoring processing job 20 on a screen or the like. The performance monitoring terminal 2 inputs setting change information for changing the set value of the SG parameter according to the keyboard operation of the operator, and transmits the input setting change information to the monitoring processing job 20. The performance monitoring terminal 2 prints out a log output form 3, which is a form in which a log (history) of performance information is recorded, and outputs it.
[0041]
Next, the operation will be described.
FIG. 2 is a sequence diagram for explaining the operation of the parameter dynamic change system of the present invention.
[0042]
In the host computer 1, the system management unit 11 of the OS 10 refers to the set values of various SG parameters recorded in the SG parameter input file 30 to perform system management during system operation (when executing application software). . At this time, the operation information collection unit 12 of the OS 10 collects operation information indicating the operation status of the CPU, the memory, and the like while the system is operating.
[0043]
Specifically, as the CPU operation status, the start time and end time of each job (JOB1, JOB2,..., JOBn) as shown in FIG. 3, the CPU usage time, and the CPU usage rate are collected. Further, as the operation status of the memory, the number of times of roll-in / roll-out of each area (system area and batch area) as shown in FIG. 4 is collected. As the operation status of the system disk, the usage rate (busy rate) and space capacity of each medium (disk) as shown in FIG. 5 are collected.
[0044]
In such a state, the timer unit 21 of the monitoring processing job 20 schedules and starts the performance monitoring processing job 20 at intervals set in advance by the user (step S1). For example, the performance monitoring processing job 20 is started by the timer unit 21 every hour.
[0045]
When the performance monitoring processing job 20 is started, the performance information acquisition unit 22 accesses the SG parameter input file 30 and acquires the set value of the SG parameter related to the system recorded in the SG parameter input file 30. Further, the performance information acquisition unit 22 requests the OS 10 for operation information (Step S2). Upon receiving a request for operation information from the performance information acquisition unit 22 of the performance monitoring processing job 20, the operation information collection unit 12 of the OS 10 sends the collected operation information of the CPU, the memory, and the system disk to the performance monitoring processing job 20. (Step S3).
[0046]
Upon acquiring the operation information of the CPU, the memory, and the system disk sent from the OS 10, the performance information acquisition unit 22 of the performance monitoring processing job 20 determines whether the numerical value of the acquired operation information is an optimal value (Step S4). ).
[0047]
Specifically, as shown in FIG. 3, in the case of CPU operation information, the “CPU usage rate” of each job in the operation information, that is, the CPU usage time of each job (CPU usage right is granted. It is determined whether the ratio of the CPU execution time during the time period is equal to or more than a predetermined optimum value (for example, 70%). If the CPU usage is too high, the processing time of the job becomes longer. On the other hand, if the CPU usage is too low, an additional job can be submitted to increase the CPU usage efficiency. When the CPU usage rate is the optimum value, it means that the CPU is efficiently executing the job processing.
[0048]
Also, as shown in FIG. 4, in the case of the operation information of the memory, the number of roll-in / roll-out times in the system area and the batch area (application area) in the memory is equal to a predetermined optimum number (for example, 5 times for each area). ) Is determined. The number of roll-ins / roll-outs is defined as roll-in / roll-out per unit time (1 second) (rolling out programs and data that are not needed for the time being to the system disk when more memory space is needed, etc.) This is referred to as “roll-out,” and the number of times a saved program or the like is read from the system disk into the memory is called “roll-in.”
[0049]
As shown in FIG. 5, in the case of the operation information of the system disk, whether the “usage rate (busy rate)” of the system disk in the operation information is equal to or more than a predetermined optimum value (for example, 50%). It is determined whether or not. The usage rate of the system disk refers to the ratio of the number of times a wait (WAIT) has occurred among the number of times the system disk has been accessed.
[0050]
When the performance information acquisition unit 22 determines that the numerical values of the operation information of the CPU, the memory, and the system disk are the optimal values (that is, the numerical values are equal to or less than the optimal values), the performance information acquiring unit 22 determines that the possibility of occurrence of a trouble or the like is low. Ends the execution performance monitoring process. On the other hand, when the performance information acquisition unit 22 determines that the numerical values of the operation information of the CPU, the memory, and the system disk are not the optimal values (that is, the numerical values are equal to or more than the optimal values), the performance information acquiring unit 22 determines that the possibility of the deterioration of the system performance is high. . In this case, the performance information display unit 24 transmits the performance information to the performance monitoring terminal 2 in order to display the performance information such as the set value of the SG parameter and the operation information on the screen of the performance monitoring terminal 2 (Step S5).
[0051]
When the performance monitoring terminal 2 receives the performance information transmitted from the performance information display unit 24 of the performance monitoring processing job 20, the performance monitoring terminal 2 displays the received performance information on a screen or the like (Step S6). Here, an example of a screen display of the performance information of the CPU is shown in FIG. FIG. 4 shows a screen display example of the performance information of the memory. FIG. 5 shows a screen display example of the performance information of the system disk.
[0052]
On the screen of FIG. 3, “start time”, “end time”, “CPU usage time”, and “CPU usage rate” of execution of each job (JOB1... JOBn) by the CPU are displayed as CPU operation information. Note that, in the example of FIG. 3, the jobs are sorted and displayed in descending order of “CPU usage rate”. In addition, on the screen of FIG. 3, “set value” of “the number of concurrently executing jobs” of the CPU is displayed as the set value of the SG parameter regarding the CPU. Also, on the screen of FIG. 3, a "change value" of the "number of concurrently executing jobs" of the CPU is displayed as an item for the operator to input a change value of the SG parameter relating to the CPU.
[0053]
On the screen of FIG. 4, "roll-in / roll-out actual number of times" of each area of the memory is displayed as the operation information of the memory. Further, on the screen of FIG. 4, "set values" of "memory frames" of respective areas of the memory are displayed as set values of the SG parameters relating to the memory. Further, on the screen of FIG. 4, "change value" of "memory frame" of each area of the memory is displayed as an item for the operator to input a change value of the SG parameter related to the memory.
[0054]
The screen of FIG. 5 displays “medium name (Disk 1... Diskn)”, “usage rate”, and “space capacity” of each disk as operation information of the system disk. It should be noted that the setting value and the change value of the SG parameter relating to the system disk are not displayed on the screen of FIG. Therefore, the performance monitoring terminal 2 cannot change the set value of the SG parameter of the system disk.
[0055]
The operator of the performance monitoring terminal 2 recognizes the operating status of each job of the CPU from the screen display as shown in FIG. Then, the operator changes the set value of the SG parameter of the CPU based on the manual of the system, his / her own experience, and the like to reduce the CPU usage rate.
[0056]
Specifically, as shown in FIG. 3, the jobs are sorted (sorted) and displayed on the screen in descending order of the CPU usage rate of each job. The operator recognizes a job with a high CPU usage rate from the screen display. For example, the operator holds a predetermined job (prohibits execution), reduces the number of concurrently executed jobs set in advance, and lowers the CPU usage rate.
[0057]
Next, the operator operates the performance monitoring terminal 2 to display the performance information of the memory on the screen. The operator recognizes the operation status of the memory from the screen display as shown in FIG. Then, the operator changes the set value of the SG parameter in the memory based on the manual of the system or his own experience, and reduces the number of roll-in / roll-out times.
[0058]
Specifically, when the number of roll-ins / roll-outs in the batch area of the memory is larger than the optimum number, the operator assigns the memory capacity allocated to the system area of the memory to the batch area so as to allocate the memory capacity to the batch area. Change the setting value. For example, it is assumed that 1 GB is allocated to the system area of the memory and 1 GB is allocated to the batch area. At this time, if the number of roll-ins / roll-outs in the batch area is larger than the optimum number, the operator sets the memory frame so that 300 Mbytes of 1 Gbytes allocated to the system area are allocated to the batch area. Change the value. That is, the operator changes the set value of the memory frame so that the system area is 700 Mbytes and the batch area is 1.3 Gbytes.
[0059]
Next, the operator operates the performance monitoring terminal 2 to display the performance information of the system disk on the screen. The operator recognizes the operating status of the system disk from the screen display as shown in FIG. At this time, the performance monitoring terminal 2 is not configured to change the set value of the SG parameter of the system disk. Therefore, the operator recognizes the medium (disk) having the highest usage rate (busy rate). Then, the operator checks the space capacity of the medium, and embeds a dummy file in the medium to prevent the primary file from being allocated (allocated) to the medium. As a result, it is possible to prevent the primary file from being allocated to the medium having the highest usage rate, and to reduce the usage rate of the medium.
[0060]
The performance monitoring terminal 2 changes the set value of the SG parameter when the set value of the SG parameter relating to the system is changed by the operator, that is, when the set value of the number of concurrently executing jobs of the CPU or the set value of the memory frame is changed. The setting change information, which is a command, is transmitted to the monitoring job 20 (step S7).
[0061]
In the performance monitoring processing job 20, the performance information change processing unit 25 determines whether the setting change information transmitted from the performance monitoring terminal 2 has been received, that is, whether the setting value of the SG parameter has been changed (step S8). . If there is no change in the set value of the SG parameter, the process returns to the above-described step S1 and the process of monitoring the execution performance of the system is repeated until the operation of the system is stopped (step S14). On the other hand, when the setting value of the SG parameter is changed, the performance information change processing unit 25 sends setting change information for changing the setting value of the SG parameter related to the performance of the system to the OS 10 (step S9).
[0062]
In the OS 10, the setting change reflection processing unit 14 performs a reflection process of the setting value of the setting-changed SG parameter based on the setting change information transmitted from the performance information change processing unit 25 of the performance monitoring processing job 20 (step S10). S10).
[0063]
The reflection processing when the set value of the SG parameter of the CPU is changed is performed as follows. Each job executed by the CPU is managed by the system management unit 11 of the OS 10. The system management unit 11 of the OS 10 performs job management based on the scheduling. The scheduling defines a job execution order, a priority (priority), and the like. In the scheduling, each job is classified and set in a class. In the scheduling, the upper limit of the system or the upper limit of the class is set for the number of concurrently executing jobs.
[0064]
The system management unit 11 of the OS 10 selects a job from a plurality of jobs waiting in the queue based on scheduling, and gives (assigns) a CPU use right to the job. At this time, the allocated CPU time is specified by SG parameters (priority, time slice, etc.).
[0065]
Here, the setting change reflection processing unit 14 determines, based on scheduling, whether or not the job whose hold is requested by the operator is permitted to be held. For example, hold of a job with a high priority is prohibited.
[0066]
If the job is permitted to be held, the setting change reflection processing unit 14 holds the job and reduces the number of jobs to be executed simultaneously for scheduling. As described above, the timing of changing the number of concurrently executed jobs by 14 may be, for example, when a plurality of jobs are executed cyclically, when the execution of the last job in the execution order ends. The system management unit 11 executes subsequent job management based on the scheduling in which the number of concurrently executed jobs has been changed. By reducing the number of concurrently executing jobs, the CPU usage time allocated to each job increases, and the CPU usage rate decreases.
[0067]
If the job is not allowed to be held, the setting change reflection processing unit 14 notifies the performance monitoring terminal 2 of the fact. In this case, the operator can take measures such as holding different jobs and reducing the number of concurrently executed jobs.
[0068]
The reflection processing when the set value of the SG parameter in the memory is changed is performed as follows. When the setting of the memory frame is changed as described above, the setting change reflection processing unit 14 allocates 300 Mbytes of the 1 Gbyte system area to the batch area. In this case, the memory frame of the system area is changed from 1 GB to 700 MB, and the memory frame of the batch area is changed from 1 GB to 1.3 GB.
[0069]
At this time, programs and data may be stored in the 300 Mbyte area initially allocated as the system area. In this case, such programs and data are temporarily saved on the system disk. Note that the program or data is not a program or data necessary for immediately executing a job, but a program or data that may be temporarily saved to the system disk is selected.
[0070]
Note that a minimum capacity to be secured is defined in the system area. The setting value of the memory frame cannot be changed so as to fall below the lower limit of such a system area. If the setting change information from the operator is a setting value that falls below the lower limit of the system area, the setting change reflection processing unit 14 notifies the performance monitoring terminal 2 of that. In this case, the operator can take measures such as changing the set value of each area of the memory frame so as not to fall below the lower limit of the system area.
[0071]
The system management unit 11 performs subsequent memory management based on the set value of the memory frame whose setting has been changed. By changing the setting value of the memory frame in this way, it is possible to reduce the number of roll-in / roll-out times in each area.
[0072]
In the performance monitoring processing job 20, the performance information change log unit 26 records log information on the set values of the changed SG parameters in the log output file 40 (step S11). FIG. 6 shows a specific example of the log information. The performance information change processing unit 25 updates the set value of the SG parameter recorded in the SG parameter input file 30 to the changed change value and records it (step S12). Thereafter, until the operation of the system is stopped, the process returns to the above-described step S1, and the execution performance monitoring process of the system is repeatedly performed (step S13). When confirming the suspension of the system operation, the performance information change processing unit 25 notifies the performance monitoring terminal 2 of the suspension of the system operation (step S14).
[0073]
When the performance monitoring terminal 2 receives the notification of the stop of the operation of the system from the performance monitoring processing job 20, it notifies the operator of this. The operator prints out the log output form 3, which is a form in which the log of the performance information is recorded (step S15). Then, based on the log output form 3, the operator determines an optimal value of the SG parameter relating to the performance of the system. The operator changes the setting value of the SG parameter to an optimum value. When the setting value of the SG parameter is changed to the optimum value by the operator, the performance monitoring terminal 2 transmits setting change information for changing the setting value of the SG parameter to the optimum value to the monitoring processing job 20 (Step S16).
[0074]
In the performance monitoring processing job 20, when the performance information change processing unit 25 receives the setting change information transmitted from the performance monitoring terminal 2, based on the received setting change information, the SG parameter recorded in the SG parameter input file 30 is used. Is changed to the optimum value (step S17). When the system is started next time, the system management unit 11 of the OS 10 performs system management with reference to the set values of the SG parameters recorded in the SG parameter input file 30. Therefore, when the optimal value of the SG parameter is recorded in the SG parameter input file 30, the optimal value is reflected in the operation of the system. Thereafter, the performance information change log unit 26 records log information on the optimal value of the SG parameter whose setting has been changed in the log output file 40 (Step S18).
[0075]
As described above, in the present embodiment, the performance information display unit 24 of the performance monitoring processing job 20 includes the SG parameters related to the system performance for setting the operating environment of the system and the operating status of the host computer 1 during the system operation. Is displayed on the performance monitoring terminal 2. The performance information change processing unit 25 receives a request for changing the set value of the SG parameter from the performance monitoring terminal 2. The setting change reflection processing unit 14 of the OS 10 reflects the change value of the SG parameter of the change request received by the performance information change processing unit 25 in the system management by the system management unit 11 of the OS 10 while the system is operating. According to such a configuration, the values of the parameters relating to the performance of the system can be dynamically changed. Therefore, the execution performance of various systems can be maximized.
[0076]
Further, when the number of concurrently executing jobs is changed as a change in the SG parameter related to the performance of the system, the setting change reflection processing unit 14 reduces the number of concurrently executing jobs for scheduling used for job management and reflects the reduced number of jobs. . According to such a configuration, the CPU usage rate can be reliably reduced, and as a result, the CPU can be used efficiently.
[0077]
Further, the setting change reflection processing unit 14 reduces the number of concurrently executing jobs by holding the job. Therefore, the number of concurrently executing jobs can be reliably reduced. Before holding the job, the setting change reflection processing unit 14 determines whether or not the hold is permitted for the job. Therefore, it is possible to prevent the number of jobs that affect system management from being reduced.
[0078]
If the change of the SG parameter relating to the performance of the system is a change of the set value of the ratio between the system area and the batch area of the memory, the setting change reflection processing unit 14 determines whether the system area and the batch area are referenced by the memory management. Change the set value of the ratio and reflect it in system management. According to such a configuration, the number of roll-in / roll-out times of the memory can be reliably reduced, and as a result, the memory can be used efficiently.
[0079]
Before changing the set value of the ratio between the system area and the batch area, the setting change reflection processing unit 14 determines whether the capacity of the system area does not become less than the limit value. Therefore, it is possible to prevent the capacity from being smaller than the capacity to be secured as the system area of the memory.
[0080]
Further, the performance information change processing unit 25 records the changed parameter setting value in the SG parameter input file 30 that records the setting value of the parameter that is referred to when the system management is performed by the system management unit 11. Therefore, when the system is started next time, the system management unit 11 of the OS 10 can perform the system management based on the changed parameter setting values.
[0081]
【The invention's effect】
As described above, according to the present invention, a parameter related to system performance for setting an operating environment of a system is obtained, operating information indicating an operating state of a host computer during system operation is obtained, and the obtained parameter and operating information are obtained. Is displayed on the monitoring terminal, and a change in the parameter setting value is received. When a request for changing the parameter setting value is received from the monitoring terminal, the host device is operated during system operation based on the requested parameter change value. It is reflected in the system management of the computer operating system. According to such a configuration, the values of the parameters relating to the performance of the system can be dynamically changed, and the execution performance of various systems can be maximized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration of a parameter dynamic change system according to the present invention.
FIG. 2 is a sequence diagram for explaining the operation of the parameter dynamic change system of the present invention.
FIG. 3 is a diagram illustrating an example of a screen display indicating an operation state of a CPU of a host computer.
FIG. 4 is a diagram showing an example of a screen display showing an operation state of a memory of a host computer.
FIG. 5 is a diagram showing an example of a screen display showing the operating status of the system disk of the host computer.
FIG. 6 is a diagram illustrating a specific example of log information.
[Explanation of symbols]
1 Host computer
2 Performance monitoring terminal (monitoring terminal)
10. Operating system
11 System Management Department
12 Operation information collection unit
13 Data output section
14 Setting change reflection processing unit (Setting change reflection processing means)
20 Performance monitoring processing job (monitoring processing means)
21 Timer section
22 Performance information acquisition unit
23 Performance Information Editing Department
24 Performance information display unit (display execution unit)
25 Performance information change processing unit (setting change receiving unit, setting change recording unit)
26 Performance information change log section
30 SG parameter input file (file)
40 Log output file

Claims (21)

Obtain parameters related to the performance of the system including the host computer,
Obtaining operation information indicating the operation status of the host computer during operation of the system,
Displaying the acquired parameters and the operation information on a monitoring terminal, accepting a change in the set value of the parameter,
When there is a request to change the set value of the parameter from the monitoring terminal, based on the change value of the parameter requested to be changed, reflect the change to the system management of the operating system of the host computer during the operation of the system. Characteristic dynamic change method. If the change in the parameter relating to the performance of the system is a change in the number of concurrently executing jobs, the number of concurrently executing jobs for scheduling used for job management of the operating system is reduced and reflected in the system management. Item 6. A dynamic parameter changing method according to Item 1. 3. The method according to claim 2, wherein the number of concurrently executing jobs is reduced by holding the jobs. 4. The dynamic parameter changing method according to claim 3, wherein before holding the job, it is determined whether or not the hold is permitted for the job. If the parameter change related to system performance is a change in the setting value of the ratio of the system area and the batch area of the memory, change the setting value of the ratio of the system area and the batch area that is referenced in the memory management of the operating system. 2. The dynamic parameter changing method according to claim 1, wherein the parameter is reflected in system management. 6. The parameter dynamic change method according to claim 5, wherein before changing the set value of the ratio between the system area and the batch area, it is determined whether or not the capacity of the system area does not become less than a limit value. 7. The method according to claim 1, wherein the setting values of the changed parameters are recorded in a file, and the setting values recorded in the file are referred to when the operating system performs system management. 3. The dynamic parameter changing method according to claim 1. A monitoring terminal provided in the host computer in a system including the host computer, and a parameter relating to the performance of the system for setting an operating environment of the system and operation information indicating an operation status of the host computer during operation of the system are transmitted to a monitoring terminal. Display execution means for displaying, and a monitoring processing unit having a setting change receiving means for receiving a request to change the setting value of the parameter from the monitoring terminal,
Setting change reflection provided in the host computer and reflected in system management of an operating system of the host computer during operation of the system based on a change value of the parameter of the change request received by the setting change receiving unit. A dynamic parameter change system comprising a processing unit. When the change in the parameter related to the performance of the system is a change in the number of concurrently executed jobs, the setting change reflection processing unit reduces the number of concurrently executed jobs in the scheduling used for job management and reflects the reduced number in the system management. 9. The dynamic parameter changing system according to claim 8, wherein: 10. The parameter dynamic change system according to claim 9, wherein the setting change reflection processing unit reduces the number of concurrently executed jobs by holding the job. 11. The dynamic parameter change system according to claim 10, wherein the setting change reflection processing unit determines whether the hold of the job is permitted before holding the job. If the change of the parameter related to the system performance is a change of the set value of the ratio of the system area and the batch area of the memory, the setting change reflection processing means sets the set value of the ratio of the system area and the batch area referred to in the memory management. 9. The parameter dynamic change system according to claim 8, wherein the parameter is changed and reflected in system management. 13. The parameter according to claim 12, wherein the setting change reflection processing means determines whether or not the capacity of the system area does not become less than the limit value before changing the set value of the ratio between the system area and the batch area. Dynamic change system. The monitoring processing means includes a setting change recording means for recording the changed setting value of the parameter in a file for recording the setting value of the parameter referred to when the system management is performed by the operating system. The parameter dynamic change system according to any one of claims 8 to 13. Obtain parameters related to the performance of the system for setting the operating environment of the system, obtain operation information indicating the operation status of the host computer during operation of the system, and display the obtained parameters and the operation information on a monitoring terminal Setting change receiving process for receiving a change in the set value of the parameter,
And a setting to be reflected in system management of an operating system of the host computer while the system is operating, based on the requested change value of the parameter when a request for changing the set value of the parameter is issued from the monitoring terminal. Parameter dynamic change control program that causes the host computer to execute change reflection processing. In the setting change reflection process, if the change in the parameter related to the performance of the system is a change in the number of concurrently executing jobs, the number of concurrently executing jobs in scheduling used for job management of the operating system is reduced and reflected in the system management. The program for controlling dynamic parameter change according to claim 15, characterized in that: 17. The program according to claim 16, wherein the number of concurrently executing jobs is reduced by holding the jobs. 18. The program for controlling dynamic parameter change according to claim 17, wherein before holding the job, it is determined whether or not the job is allowed to be held. In the setting change reflection processing, if the change of the parameter related to the system performance is the change of the set value of the ratio of the system area and the batch area of the memory, the ratio of the system area and the batch area referred to by the memory management of the operating system 16. The program for controlling dynamic parameter change according to claim 15, wherein the setting value is changed and reflected in system management. 20. The non-transitory computer-readable storage medium according to claim 19, wherein before changing the set value of the ratio between the system area and the batch area, it is determined whether the capacity of the system area does not become less than a limit value. 16. The system according to claim 15, wherein the host computer also executes a parameter recording process of recording the changed set value of the parameter in a file for recording the set value of the parameter which is referred to when the system management is performed by the operating system. 21. The program for controlling dynamic change of a parameter according to any one of 20.

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