JPH11265306A - Throughput estimation device, its method and recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a throughput estimation device, etc., capable of estimating the throughput of a program by a compuer or the like without requiring a processor in a computer or the like to grasp the processing speed of an instruction code or the number of instruction codes in a program. SOLUTION: When the sort of an operation processing machine, the average load of processors and a program are specified by a user, a system constitution setting part 1 specifies the number of processors and the sort or the like of access processing to a data base by the specified program. An access processing time predicting part 2 predicts time required for access processing in each sort of processing from the number of processors and the average load. An access frequency estimating part 3 traces the specified program and estimates the frequency of access processing. A throughput calculation part 4 estimates and displays the number of times of executing the specified program by the specified operation processing machine per unit time.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a processing capacity estimation apparatus and a processing capacity estimation method, and more particularly to a processing capacity estimation apparatus and a processing capacity estimation method for estimating the processing capacity of a non-mainframe type computer.

[0002]

2. Description of the Related Art When manufacturing, adjusting, and introducing a business processing system for managing business in a company or the like, it is useful to objectively evaluate the processing capability of the business processing system. For this reason, conventionally, for a business processing system or the like including a mainframe type computer, a method of roughly estimating the processing capacity based on the specifications of the business processing system and the contents of the processing performed by the business processing system has been performed. Was.

In this method, a parameter indicating the number of instruction codes that can be processed per unit time by a CPU (Central Processing Unit) provided in a mainframe type computer and a parameter indicating a scale of a program executed by the business processing system are used. Based on the above, a value representing the processing capacity is calculated.

[0004] More specifically, for example, M is a parameter representing the number of instruction codes that can be processed by the CPU per second.
IPS (Million-Instructions Per Second) and DS (Dynamic Step), which is a parameter indicating the number of instruction codes executed by the business processing system according to the program, are obtained in advance, and the quotient obtained by dividing the value of MIPS by the value of DS is large. The higher the processing capacity, the higher the judgment was made.

[0005]

However, when the processing capability of a business processing system or the like is evaluated by the above-described method, the above-mentioned value representing the processing capability (for example, the quotient obtained by dividing the value of MIPS by the value of DS). Value) is assumed to appropriately reflect the processing capacity. Further, each of the above-mentioned parameters (for example, M
IPS and DS values) must be able to be grasped in advance, and these parameters need to appropriately reflect the processing speed of the entire business processing system and the scale of the program. .

However, in a business processing system or the like composed of a non-mainframe type computer, the physical and logical components of the computer are usually developed separately. That is, for example, it is normal that the CPU and the input / output device are developed separately from each other, or the kernel part and the part for performing data access processing in the operating system are developed separately from each other. Therefore, it is difficult to grasp the operation of each element in a unified manner, and it is also difficult to estimate the time required until the result of the instruction given to each element by the CPU is obtained.

[0007] In general, business processing systems generally adopt a multiprocessor architecture in which a plurality of CPUs perform information processing in parallel. However, a parameter representing the number of instruction codes that the CPU can process per unit time is an individual CPU.
It only reflects the processing power of

Accordingly, even if a parameter indicating the number of instruction codes that can be processed by each CPU per unit time is obtained, it cannot be said that it immediately indicates the processing speed of the entire business system properly. Further, even if a parameter indicating the number of instruction codes to be executed by the business processing system according to the program is obtained, it cannot be said that this immediately indicates the scale of the program.

Further, if the program to be executed by the business processing system is created by a combination of existing libraries and the size of the library is unknown, it is necessary to obtain a parameter representing the size of the entire program. Is almost impossible.

[0010] For the above reasons, the processing capability of a business processing system or the like composed of a non-mainframe type computer can be properly estimated by the same method as that of a mainframe type computer as described above. Can not.

As a method for solving these problems, for example, a business process system to be tested executes a predetermined benchmark program, and the time required for the execution is measured. There is a method that can be considered high.

However, according to the benchmark program,
It is difficult to comprehensively measure the processing speed that can be performed by the business processing system or the like to be tested. In particular, in a non-mainframe type computer, the combination of physical and logical elements constituting the computer is virtually unlimited. For this reason, it is almost impossible to objectively compare the processing capabilities of a plurality of business systems using a common benchmark program.

[0013] Further, in the method using the benchmark program, it is necessary that the business processing system for executing the benchmark program has already been manufactured. For this reason, this method cannot be used as a method for evaluating a business processing system or the like that is still in the design stage.

SUMMARY OF THE INVENTION The present invention has been made in view of the above situation, and does not require the processing speed of instruction codes by a processor provided in a computer or the like or the number of instruction codes in a program. It is an object of the present invention to provide a processing capacity estimating apparatus and a processing capacity estimating method capable of estimating.

[0015]

In order to achieve the above object, a processing capacity estimation apparatus according to a first aspect of the present invention includes a processor, and a machine connected to a database executes a program within a predetermined time. A processing capacity estimating apparatus that generates a processing capacity value representing the number of times the processing can be performed, processor number information indicating the number of the processors, and processing number information indicating the number of times the processor performs the operation of the database according to the program, Information acquisition means for acquiring required time information representing a predicted value of the required time required for the processor to perform the operation; and the processor number information, the processing number information, and the required time acquired by the information acquisition means Processing capacity value calculating means for determining the processing capacity value based on the information and outputting information representing the processing capacity value. The features.

According to such a processing capacity estimating apparatus, the processing capacity value is based on the number of processors provided in the machine, the number of times the database is accessed during execution of the program, and the time required for each access. Generated.
For this reason, the processing capacity estimation device creates information indicating the processing capacity of the machine without having to know the processing speed of the instruction code by the processor and the number of instruction codes of the program.

Further, the processing capacity estimating apparatus according to a second aspect of the present invention is a processing capacity estimating apparatus, comprising: a processing capacity value representing the number of times that a machine having a processor executing an object-oriented program can execute the program within a predetermined time A processing capacity estimating device for generating the number of processors, information on the number of processors indicating the number of the processors, information on the number of processes indicating the number of times the processors perform operations on the object, and information required for the processors to execute the operations Information acquisition means for acquiring required time information representing a predicted value of the required time, and determining the processing capacity value based on the processor number information, the processing number information and the required time information acquired by the information acquisition means. And a processing capability value calculating means for outputting information representing the processing capability value.

According to such a processing capacity estimating apparatus, the processing capacity value is determined by the number of processors provided in the machine, the number of times the object is operated during execution of the program, and
It is generated based on the time required for each operation. For this reason,
The processing capacity estimating device creates information indicating the processing capacity of a machine without having to grasp the processing speed of instruction codes by a processor and the number of instruction codes of a program.

The information acquiring means acquires, for example, a load amount representing a ratio of a time during which the processor is executing a process to a time during which the machine is operating, and based on the processor number information and the load amount. By providing a required time calculating means for generating the required time information,
Estimate the time required to access the database and manipulate objects.

The required time calculating means acquires actual measurement information indicating the number of times the machine has executed the program within the predetermined time, defines the prediction function based on the actual measurement information, and defines the defined prediction function. The apparatus may further include means for storing a prediction function in the prediction function storage means. As a result, the prediction function is updated to reflect the execution result of the program by the machine.

The information obtaining means includes, for example, a function representing a predicted value of the required time required to execute the operation based on the processor number information and the load amount, and a processing code indicating a type of the operation. And predictive function storage means for storing the processing codes in association with each other,
Required time calculation means for acquiring the function associated with the processing code from the prediction function storage means and calculating the value of the acquired prediction function to generate the required time information. You may. This allows
Even if there are multiple types of operations whose time required to be predicted,
The required time is calculated by a prediction function for calculating the required time for each type of operation. Therefore, if these prediction functions predict the time required for each type of operation more accurately than when performing prediction using a single function,
The accuracy of the estimated time required is improved.

An execution processing storing means for storing the program information for specifying the program and the processing code indicating the type of the operation performed by the processor in the course of processing of the program in association with each other And means for acquiring the program information and acquiring the processing code associated with the program information. For example, when a user or the like specifies the program, the processing of the program is performed. In the process, the operation performed by the processor is specified.

[0023] The information acquisition means is a program storage means for storing program information for specifying the program and program data of the program in association with each other, and acquiring the program information and associating the program information with the program information. Acquiring the obtained program data from the program storage means, and means for generating the processing number information based on the acquired program data, if, for example, by specifying a program by a user or the like, Processing number information is automatically generated.

[0024] The information obtaining means includes: a processor number storing means for storing the machine information for specifying the machine and the processor number information indicating the number of processors provided in the machine in association with each other; Means for acquiring the processor number information associated with the machine information from the processor number storage means, for example, by designating the machine by a user or the like. The number of the processors is specified.

[0025] The processing capacity value calculating means may determine the number of processors included in the machine based on the required time information, the processing number information, and the processor number information, for example.
Means for generating, as the processing capability value, a value substantially proportional to a value obtained by dividing by a total time during which the processor performs the operation.

A processing capacity estimation apparatus according to a third aspect of the present invention is a processing capacity estimation apparatus for generating a processing capacity value representing the number of times a machine having a processor can execute a program within a predetermined time. Information on the number of processors indicating the number of processors, information on the number of processes indicating the number of specific processes executed by the processor according to the program, and a predicted value of the time required for the processor to execute the specific process Information obtaining means for obtaining required time information indicating the number of processors, the number of processors obtained by the information obtaining means, the processing number information and the required time information, the processing capacity value is determined, Processing capacity value calculating means for outputting information representing
It is characterized by the following.

According to such a processing capacity estimating apparatus, the processing capacity value is determined based on the number of processors included in the machine, the number of times a specific process is performed during the execution of the program, and the time required for the process. Generated. For this reason, the processing capacity estimation device creates information indicating the processing capacity of the machine without having to know the processing speed of the instruction code by the processor and the number of instruction codes of the program.

Further, a processing capacity estimation method according to a fourth aspect of the present invention includes a processor, and generates a processing capacity value indicating the number of times that a machine connected to a database can execute a program within a predetermined time. A processing capacity estimation method, comprising: processor number information indicating the number of the processors; processing number information indicating the number of times the processors perform operations on the database according to the program; and a processing number required for the processors to execute the operations. An information obtaining step of obtaining required time information representing a predicted value of the required time, and determining the processing capacity value based on the processor number information, the processing number information, and the required time information obtained by the information obtaining step. And a processing capability value calculating step of outputting information representing the processing capability value.

According to such a processing capacity estimation method, the processing capacity value is determined based on the number of processors included in the machine, the number of times the database is accessed during execution of the program, and the time required for each access. Generated.
For this reason, according to the processing capacity estimation method, information representing the processing capacity of the machine is created without having to know the processing speed of the instruction code by the processor and the number of instruction codes of the program.

A computer-readable recording medium according to a fifth aspect of the present invention includes a computer
Processor number information indicating the number of processors included in the machine connected to the database, processing number information indicating the number of times the processor performs the operation of the database according to the program, and the time required for the processor to execute the operation Information acquisition means for acquiring required time information representing a predicted value of the processor number information, the number of processes acquired by the information acquisition means, and the required time information, A processing capacity value calculating unit that determines a processing capacity value indicating the number of times the program can be executed, and outputs information indicating the processing capacity value;
The program is characterized by recording a program for causing it to function.

The computer that executes the program recorded on such a recording medium has a processing capability value of:
It is generated based on the number of processors included in the machine, the number of times the database is accessed during execution of the program, and the time required for each access. For this reason, information representing the processing capability of the machine is created without having to grasp the processing speed of instruction codes by the processor and the number of instruction codes of the program.

[0032]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A processing capacity estimating apparatus and a processing capacity estimating method according to an embodiment of the present invention will be described below with reference to an example of a processing capacity estimating apparatus for estimating the processing capacity of a business processing system for performing processing for accessing a database. And will be described with reference to the drawings.

FIG. 1 shows a configuration of a processing capacity estimating apparatus according to an embodiment of the present invention. As shown in the figure, the processing capacity estimation device includes a system configuration setting unit 1, an access processing time prediction unit 2, an access number estimation unit 3, and a processing capacity calculation unit 4.

The system configuration setting unit 1 includes an input unit 11 and
A display unit 12, a system configuration database 13, and a processing unit 14 are provided. The input unit 11 includes a keyboard or the like, and supplies information according to a user operation to the processing unit 14. The display unit 12 includes a CRT (Cathode Ray Tube) or the like, and displays an image representing the information supplied from the processing unit 14 on a display screen.

The system configuration database 13 stores information indicating the model of the business processing system that can be selected by the user as an object of processing capacity estimation, and information indicating the number of processors included in the business processing system of the model. And memorize it.

The system configuration database 13 includes:
Information indicating the name of a program that can be executed by the business processing system which can be selected by the user as an object of processing capacity estimation, information indicating the type of access processing to the database performed according to the program, and access of the type Information indicating how the process is described in the source code of the program is stored in association with each other.

It should be noted that the types of database access processing include, specifically, processing for referring to the database,
This refers to each type of access processing, such as a process of updating a database, when the form of access processing is classified according to an arbitrary standard.

As the information indicating how the access processing is described, specifically, for example, when the program is described in SQL (Structured Query Language), various kinds of access processing (for example,
This includes information indicating the format of an SQL instruction that represents a process of referring to or updating a database.

The processing section 14 comprises a processor and the like. The processing unit 14 acquires information input by the user using the input unit 11, searches information from the system configuration database 13 in accordance with processing described later, and retrieves information input by the user and information searched out. , The access processing time prediction unit 2, the access number estimation unit 3, and the processing capacity calculation unit 4.

The access processing time predicting section 2 is for predicting the average time required for the business processing system to perform access processing to the database. The access processing time prediction unit 2 includes a prediction expression database 21 and an operation unit 2
2 is provided.

The prediction formula database 21 is a formula used for predicting an average time required for the business processing system to access the database, and a prediction formula described later, and an access process to which the prediction formula is applied. Are stored in association with each other.

For example, as described later, the prediction formula is expressed as a function of the number of processors provided in the business processing system and the average load of the processors for each type of access processing performed by the processors. Note that the prediction formula may be empirically determined in advance by performing an experiment or the like, for example.

The operation unit 22 is composed of a processor or the like, acquires information supplied from the system configuration setting unit 1, determines a prediction expression to be operated according to the information, and stores the prediction expression in the prediction expression database 21. Then, the value of the read prediction formula is calculated, and the calculation result is supplied to the processing capacity calculation unit 4.

The access count estimating unit 3 is for estimating the number of access processes to the database performed during one execution of the program specified by the user by the business processing system. The access number estimation unit 3 includes a program database 31 and a calculation unit 32.

The program database 31 stores, for example, source codes of programs executable by the business processing system.
It is stored in association with the name of the program.

The operation unit 32 is constituted by a processor or the like, acquires information supplied from the system configuration setting unit 1, and reads out a source code of a program indicated by the information from the program database 31. Then, according to the process described later, the number of database access processes performed during one execution of the program is calculated, and the calculation result is supplied to the processing capacity calculation unit 4 as an estimated result of the number of access processes. I do.

The processing capacity calculation unit 4 is for calculating the number of times that the business processing system can process the program specified by the user within a predetermined time. The calculation unit 41 including a processor and the like, and the display unit 42 Consists of

The operation unit 41 includes an access processing time prediction unit 2
And the information supplied from the access count estimating unit 3, and based on the supplied information, as described later, the number of times the business processing system can process the program specified by the user within a predetermined time. Is calculated. Then, information representing the calculation result is supplied to the display unit 42, and the display unit 42 displays an image representing the information.

Next, the operation of the processing capacity estimation device will be described with reference to FIG. First, the processing unit 14 of the system configuration setting unit 1 displays the following information (1) to (3) on the display unit 12, namely, (1) the model of the business processing system for which the processing capacity is to be estimated; A) a message prompting the user to input information indicating the expected value of the average load of the processor included in the business processing system (3) the name of the program to be executed by the business processing system;

The average load of the processor is the ratio of the total time during which each processor executes instructions to the total time during which each processor included in the business processing system is energized. It is a numerical value representing 0 or more and 1 or less, and the information (2) is an expected value of the numerical value. In order to roughly estimate the worst value of the processing capacity, the value of the information in (2) usually needs to be 1.

Then, the user operates the input unit 11 to
When the above information (1) to (3) is input (Step S)
1), the processing unit 14 supplies the input information to the display unit 12. The display unit 12 displays images representing the information of (1) to (3) on a display screen.

Next, the processing unit 14 searches the system configuration database 13 using the information (1) and (3) among the input information as a key, and obtains the following information (4) to (6), ie, , (4) the number of processors included in the business processing system indicated by the information of (1), (5) the type of database access processing performed according to the program indicated by the information of (3), and (6) and (5) information (3) is searched for information indicating how the type of access processing is described in the source code of the program indicated by the information (3) (step S2).

Next, the processing unit 14 obtains the obtained (1) to
Among the information of (6), the information of (1), (2), (4) and (5) is supplied to the access processing time prediction unit 2,
The information of (3) and (6) is supplied to the access number estimation unit 3, and the information of (4) is supplied to the processing capacity calculation unit 4 (step S3).

Operation unit 22 of access processing time prediction unit 2
Are (1), (2), and (4) from the system configuration setting unit 1.
When the information of (1) and (5) is supplied, the information of (1) and (5), that is, the model of the business processing system designated by the user and the type of access processing to the database are used as keys, 21 is searched. Then, when a prediction formula associated with the business processing system of the model designated by the user and the type of access processing is searched from the prediction formula database 21 (step S4),
Proceed to step S5.

In step S5, the arithmetic unit 22 performs processing for the business processing system to access the database based on the prediction formula found in step S4 and the information in (2) and (4). A predicted value of the required average time is obtained, and the obtained predicted value is supplied to the processing capacity calculation unit 4.

The processing in step S5 will be specifically described.
For example, in step S1, a user operates an Enterprise 6 of Sun Microsystems as a business processing system.
It is assumed that 000 is specified and that the type of access processing includes the processing of referencing and updating the database. Then, the prediction formula database 21 stores the formula shown in Formula 1 as a prediction formula for predicting the processing time of the database reference process performed by the Enterprise 6000, and the prediction formula for predicting the processing time of the database update process. It is assumed that the equation shown in Equation 2 is stored as the equation.

[0057]

T _ref = (− 0.00514 × N + 1.119532) + (0.794
187 + 0.064553 × N) × α (where T _ref is a predicted value of the average time of processing to be referred to the database (unit: millisecond), N is the number of processors provided in the business processing system, and α is the average load of the processors) Expected value (0 ≦ α ≦ 1)

[0058]

T _upd = (0.003954 × N + 1.325902) + (1.072
968 + 0.071277 × N) × α (where T _upd is the predicted value of the average time of processing for updating the database (unit is millisecond))

In this case, the calculation unit 22 of the access processing time prediction unit 2 substitutes the information of (4) supplied from the system configuration setting unit 1 into the variable N of Expressions 1 and 2,
By substituting the information of (2) for the variable α and calculating the value on the right side of both the mathematical expressions 1 and 2, the values T _ref and T _upd on the left side of both are calculated. Then, the obtained values of T _ref and T _upd are supplied to the processing capacity calculation unit 4 as predicted values of the processing time required for referring to the database and updating the database by the Enterprise 6000.

On the other hand, the operation unit 32 of the access number estimation unit 3
Is supplied with the information of (3) and (6) from the system configuration setting unit 1 and uses the information of (3), that is, the name of the program to be executed by the business processing system designated by the user as a key Program database 3
1 and retrieves the source code of the program (step S6).

Next, the operation unit 32 traces the process represented by the searched source code, and indicates the information (6) supplied from the system configuration setting unit 1 while the process is performed once. Count the number of times the process is executed (step S7),
The counting result is supplied to the processing capacity calculation unit 4.

The processing in step S7 will be specifically described. For example, the system configuration setting unit 1 uses the format of an SQL instruction (hereinafter referred to as a reference SQL) representing the database reference processing as information (6). It is assumed that a format of an SQL instruction (hereinafter, referred to as an update SQL) representing a database update process is supplied. In this case, the operation unit 32
Traces the process indicated by the source code found in step S6, and counts the number of times each of the reference SQL and the update SQL indicated by the information of (6) is executed while the process is performed once. . Then, the result of counting the number of executions of the reference SQL and the number of executions of the update SQL are supplied to the processing capacity calculation unit 4.

The calculation unit 41 of the processing capacity calculation unit 4 is supplied with the number of processors included in the business processing system in step S3, is supplied with a predicted value of the average required time of the access processing in step S5, and is supplied with the access processing in step S7. When the number of times of execution is supplied, an approximate value of the number of times that the program specified by the user can be executed within a predetermined time is calculated based on the supplied information (step S8).

Specifically, for example, the calculation unit 41 is supplied with the above-mentioned values T _ref and T _upd from the access processing time prediction unit 2, and is supplied from the access number estimation unit 3 with the reference system SQL
Is supplied, the value on the right side of Expression 3 is calculated. Calculation result K
₁ represents an approximate value of the number of times that the above-described Enterprise 6000 can perform the process specified by the user in one hour.

[0065]

K ₁ = (3600000 × N) / (T _ref × k _ref + T
_upd × k _upd ) (However, k _ref is the number of executions of the reference SQL, and k _upd is the number of executions of the update SQL)

An approximate value of the number of times that the program specified by the user can be executed within a predetermined time (for example, the above-described approximate value K
_{When 1} ) is calculated, the arithmetic unit 41 supplies the obtained approximate value to the display unit 42, and the display unit 42 displays the approximate value on a display screen (step S9).

The configuration of the processing capacity estimation device is not limited to the above. For example, the target for which the processing capacity estimation device estimates the processing capacity is not limited to the business processing system, but may be any device that includes a processor and accesses a database.

The processing unit 14, the operation unit 22, and the operation unit 3
The CPU 2 and the arithmetic unit 41 do not need to be separate devices. For example, as shown in FIG. 3, one CPU performs the functions of the processing unit 14, the arithmetic unit 22, the arithmetic unit 32, and the arithmetic unit 41. You may do so. Further, the system configuration database 13, the prediction formula database 21 and the program database 31 do not need to be composed of separate devices.
For example, as shown in FIG. 3, a storage area of a single external storage device such as a hard disk device may perform the functions of the system configuration database 13, the prediction formula database 21, and the program database 31. In addition, as shown in FIG.
And the function of the display unit 42 may be performed.

Further, for example, when the user sets the above (4) to
If the information of (6) is input using the input unit 11, the system configuration database 13 is not necessarily required, and the processing capacity estimation device uses any method to perform the processing of (4) to (6). Information may be obtained.

On the other hand, this processing capacity estimating device
Instead of acquiring the information of (2) described above, the expected value of the average load of the processor included in the business processing system which can be selected by the user as the target of the processing capacity estimation in the system configuration database 13 May be stored.

However, in a business processing system or the like having a processor, the average load of the processor is usually the number of the processors (or the model of the business processing system),
And the size of the program being processed by the processor. For this reason, when the expected value of the average load of the processor is stored in the system configuration database 13, the expected value is, for example, scheduled to be constantly executed by the business processing system and the model of the business processing system. And the name of the program (for example, operating system) that is stored. Then, in addition to the above-mentioned information (1) and (3), the processing unit 14 performs the following information (7), that is, (7)
The name of a program that the business processing system indicated by the information (1) is to be constantly executed is acquired via the input unit 11. Then, among the values of the average load of the processor stored in the system configuration database 13, those that are associated with both the input information (1) and (7) are searched, and the access processing time prediction unit is searched. 2
To be supplied.

The predicted value of the average load of the processor stored in the system configuration database 13 is not limited to the above-mentioned one. For example, the worst value (that is, 1) is stored. When calculating the value of the time prediction formula, the worst value may be applied uniformly.

Further, the prediction formula for predicting the processing time of the access process does not need to be expressed by Expressions 1 and 2. Further, the access processing for which the processing time is predicted by the access processing time prediction unit 2 is not limited to referencing and updating the database.

The data used by the access number estimation unit 3 for estimating the number of executions of the access process may be arbitrary data. For example, the data is not limited to the source code of the program specified by the user, but may be the object of the program. The code and the library used to generate the executable file of the program may be used. Further, for example, the user inputs data representing an estimated value of the number of times of execution of the access processing by using the input unit 11, and the processing capacity calculation unit 4 converts the data input by the user directly from the input unit 11 or processes the data. If the access number is obtained via the unit 14, the access number estimation unit 3 itself is not always necessary.

The condition for obtaining the approximate value of the number of times that the program specified by the user can be executed within a predetermined time by the business processing system or the like does not need to be represented by the equation (3). The approximate value is, for example, the estimated value of the total time spent in any process for which the processing time is predicted is obtained by an arbitrary method, and the number of processors included in the business processing system is calculated by the estimated value of the total time. It may be obtained by dividing and multiplying the obtained quotient by an arbitrary constant.

The program for which the access count estimating unit 3 estimates the number of times of execution of the access process does not need to be specified by the user. Information indicating the type of program to be executed by the system may be obtained, and the number of times of execution of various access processes included in the type of program may be estimated based on the type of program indicated by the obtained information.

More specifically, for example, the number-of-accesses estimating unit 3 stores, for each type of program that can be designated by the user, an execution number database that stores estimated values of the number of executions of various access processes included in the program. May be provided.
In this case, for example, when the user uses the input unit 11 to input information specifying the type of program to be executed by the business processing system whose processing capacity is to be estimated, the information indicating the type of the specified program is input. Access number estimation unit 3 directly from the unit 11 or via the processing unit 14
To be supplied. Then, the access count estimating unit 3 searches the execution count database using the supplied information as a key, and finds an estimated value of the execution count of various access processes included in the type of program indicated by the information input by the user. . The types of the programs may be classified according to an arbitrary standard, and the estimated value of the number of executions of various access processes included in the program may be determined by an arbitrary method.

When the business processing system whose processing capacity is to be estimated is executing a monitor program for monitoring the operating status of its own processor and calculating an average load, the system configuration setting unit 1 and the access One of the processing time prediction units 2 uses this monitor program to calculate
Information indicating the average load of the processor may be delivered. Further, the business processing system for which the processing capacity is to be estimated may perform the function of the processing capacity estimation apparatus.

The access processing time prediction unit 2 calculates the prediction formula stored in the prediction formula database 21 based on the difference between the approximate value calculated by the processing capacity calculation unit 4 and the actually measured processing capacity. It may be changed.

More specifically, for example, when the program specified by the user performs only one type of access processing, the prediction formula may be updated according to the following procedures (A) to (D). . (A) The business processing system executes the above-described monitor program or the like, and the monitor program or the like periodically measures the number of executions of the program designated by the user within a predetermined time, and measures the number of executions. In parallel, the average load of the processor is measured. Then, the measurement result of the execution count and the measurement result of the average load of the processor during the period in which the execution count is measured are supplied to the calculation unit 22 of the access processing time prediction unit 2. (B) On the other hand, the arithmetic unit 22 acquires the number of times of access processing to the database by the program from the access number estimation unit 3. (C) The arithmetic unit 22 calculates the reciprocal of the number of executions supplied from the monitor program (that is, the execution time of the program specified by the user) with the value of the number of times of the access process supplied from the access number estimation unit 3. By dividing and multiplying by a predetermined constant, an estimated value of the processing time of the access processing is obtained. (D) Next, the calculation unit 22 determines a linear function that uses the value of the average load of the processor as a variable and approximately represents the estimated value of the processing time of the access processing according to, for example, the least square method. Then, data that specifies the obtained linear function (for example, an intercept and a gradient value of the linear function) is recorded in the prediction equation database 21 as data representing the prediction equation. However, the data representing the prediction formula for obtaining the predicted value of the processing time of the same access processing is the prediction formula database 2
1. If the data has been recorded before, the previously recorded data is discarded.

The processing for which the access processing time prediction unit 2 predicts the processing time is not limited to the access processing to the database, and the access processing time prediction unit 2 may predict the processing time of any processing. . In this case, the number-of-accesses estimation unit 3 may estimate the number of times of the processing for which the access processing time prediction unit 2 has predicted the processing time. When the access processing time prediction unit 2 predicts the processing time of the processing other than the access processing to the database, the device for which the processing capacity is to be estimated does not need to access the database.

The business processing system whose processing capacity is to be estimated by the processing capacity estimation device may execute a program created by object-oriented programming, and the program may be a program for managing a database. DBMS (DataBase Managem
ent System) to access the database.

The DBMS stores each data contained in the database constructed in the storage area of the external storage device, etc.
It is developed in a storage area of a main storage device connected to a processor included in the business processing system. Then, an object is formed by associating each expanded data with a code describing a procedure scheduled to be performed on the data (for example, a response to a reference request or an update request for the data). . Further, the DBMS replaces data stored in the database with data developed in the storage area of the main storage device at an arbitrary timing.

On the other hand, a program created by object-oriented programming supplies a process (method) for supplying an object operation instruction in a format according to a procedure defined for each object to objects including objects formed by the DBMS. To operate the object. Therefore, the program is described as a sequence of methods.

When the processing capacity of a business processing system which is created by object-oriented programming and executes a program for accessing a database in accordance with DBMS is roughly estimated, the prediction processing database 21 of the access processing time prediction unit 2 requires that the business processing system It is sufficient to store a prediction formula for calculating a predicted value of a required time required to perform a process of operating each object according to the above.

When the access to the database is performed according to the DBMS, the program created by the object-oriented programming does not usually directly access the database itself. Therefore, the time required for the object to perform the process according to the method is generally substantially constant regardless of the contents of the procedure scheduled by the object. Therefore, it is usually sufficient if the prediction formula database 21 stores a single prediction formula.

Specifically, for example, assuming that Enterprise 4000 of Sun Microsystems is used as the business processing system, the prediction formula database 21 stores the prediction formula for predicting the processing time of the processing performed by Enterprise 4000 according to the method. Equation 4 is stored as
May calculate the right side of Equation 4.

[0088]

T _met = (− 0.001186 × N + 2.445434) + (1.86
7155 + 0.135830 × N) × α (where T _met is the predicted value of the average time of processing performed by Enterprise 4000 according to the method (unit is millisecond))

Then, the access number estimating unit 3 counts the number of methods executed by the program designated by the user and supplies the counting result to the processing capacity calculation unit 4. By calculating Ente
Rprise 4000 may be to determine the approximate value K ₂ of the number that may be performed during 1 hour the program.

[0090]

K ₂ = (3600000 × N) / (T _met × k _met ) (where k _met is the number of times the method is executed)

The conditions for obtaining the prediction formula for predicting the processing time of the method and the approximate value of the number of times that the program specified by the user can be executed within a predetermined time by the business processing system to be estimated or the like are as follows: It does not need to be represented by Eq.

Although the embodiments of the present invention have been described above, the processing capacity estimating apparatus of the present invention can be realized using an ordinary computer system without using a dedicated system. For example, by installing the program from a medium (a floppy disk, a CD-ROM, or the like) storing a program for executing the above-described operation in a personal computer, a processing capacity estimating apparatus for executing the above-described processing is configured. Can be.

The medium for supplying the program to the computer may be a communication medium (a medium that temporarily and fluidly stores the program, such as a communication line, a communication network, or a communication system). For example, the program may be posted on a bulletin board (BBS) of a communication network and distributed via the network. Then, by starting this program and executing it in the same manner as other application programs under the control of the OS, the above-described processing can be executed.

If the OS shares part of the processing,
Alternatively, when the OS constitutes a part of one component of the present invention, a program excluding the part may be stored in the recording medium. Also in this case, in the present invention, it is assumed that the recording medium stores a program for executing each function or step executed by the computer.

[0095]

As described above, according to the present invention, the processing of a program by a computer or the like can be performed without having to grasp the processing speed of the instruction code by the processor of the computer or the like and the number of instruction codes of the program. A processing capacity estimation device and a processing capacity estimation method capable of estimating the capacity are realized.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a processing capacity estimation device according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a process performed by the processing capacity estimation device of FIG. 1;

FIG. 3 is a block diagram showing a modification of the processing capacity estimation device of FIG. 1;

[Explanation of symbols]

 Reference Signs List 1 system configuration setting unit 11 input unit 12 display unit 13 system configuration database 14 processing unit 2 access processing time prediction unit 21 prediction formula database 22 calculation unit 3 access count estimation unit 31 program database 32 calculation unit 4 processing capacity calculation unit 41 calculation unit 42 Display

Claims (12)

[Claims] 1. A processing capacity estimating apparatus that includes a processor and generates a processing capacity value indicating the number of times that a machine connected to a database can execute a program within a predetermined time, wherein the processor indicates the number of the processors. Information for obtaining number information, processing number information representing the number of times the processor performs the operation of the database according to the program, and required time information representing a predicted value of the required time required for the processor to perform the operation. Acquiring means; and a processing capacity value calculation for determining the processing capacity value based on the processor number information, the processing number information, and the required time information obtained by the information obtaining means, and outputting information representing the processing capacity value. Means, and a processing capacity estimating device. 2. A processing capacity estimating apparatus for generating a processing capacity value representing the number of times a machine having an object-oriented type program can be executed within a predetermined time by a machine having a processor, the number of processors being , Information on the number of processes indicating the number of times the processor performs an operation on the object, and required time information indicating a predicted value of the required time required for the processor to perform the operation. Means for determining the processing capacity value based on the processor number information, the processing number information, and the required time information acquired by the information acquisition means, and outputting information representing the processing capacity value. A processing capacity estimation device, comprising: 3. The information acquisition means acquires a load amount representing a ratio of a time during which the processor is executing a process to a time during which the machine is operating, and based on the processor number information and the load amount. The processing capacity estimating device according to claim 1, further comprising a required time calculating unit configured to generate the required time information. 4. A function representing a predicted value of the required time required to execute the operation based on the processor number information and the load amount, and a processing code indicating a type of the operation. And a prediction function storage unit that stores the processing code, and obtains the function associated with the processing code from the prediction function storage unit, and calculates a value of the obtained prediction function. The processing time estimating device according to claim 3, further comprising: a required time calculating unit configured to generate the required time information. 5. The required time calculating means acquires actual measurement information representing the number of times the machine has executed the program within the predetermined time, defines the prediction function based on the actual measurement information, and defines the prediction function. The processing capacity estimation device according to claim 4, further comprising means for storing the prediction function in the prediction function storage means. 6. An execution process for storing the program information for specifying the program and the processing code indicating the type of the operation performed by the processor in a process of processing the program in association with each other. The processing capacity estimation device according to claim 4, further comprising: a storage unit; and a unit configured to acquire the program information and acquire the processing code associated with the program information. 7. The information obtaining means includes: program information for specifying the program; program storage means for storing program data of the program in association with each other; and obtaining the program information; 7. A means for acquiring the associated program data from the program storage means and generating the processing number information based on the acquired program data. Item 2. The processing capacity estimation device according to item 1. 8. The processor number storage means for storing machine information for specifying the machine and the processor number information indicating the number of processors provided in the machine in association with each other; 8. A means for acquiring information and acquiring the processor number information associated with the machine information from the processor number storage means. 9. Processing capacity estimation device. 9. The processing capability value calculating means determines the number of processors included in the machine based on the required time information, the processing number information, and the processor number information by a total time for the processor to perform the operation. The processing capacity estimation device according to any one of claims 1 to 8, further comprising: means for generating a value substantially proportional to the divided value as the processing capacity value. 10. A processing capacity estimating apparatus for generating a processing capacity value indicating the number of times that a machine having a processor can execute a program within a predetermined time, comprising: processor number information indicating the number of processors; Information acquisition means for acquiring process number information indicating the number of specific processes executed by the processor, and required time information indicating a predicted value of a required time required for the processor to execute the specific process; A processing capability value calculating unit that determines the processing capability value based on the processor number information, the processing number information, and the required time information acquired by the information acquiring unit, and outputs information representing the processing capability value. An apparatus for estimating processing capacity, characterized in that: 11. A method for estimating a processing capacity which includes a processor and generates a processing capacity value indicating a number of times a machine connected to a database can execute a program within a predetermined time, wherein the processor indicates the number of the processors. Information for obtaining number information, processing number information representing the number of times the processor performs the operation of the database according to the program, and required time information representing a predicted value of the required time required for the processor to perform the operation. An acquisition step; a processing capacity value calculation for determining the processing capacity value based on the processor number information, the processing number information and the required time information obtained by the information obtaining step, and outputting information representing the processing capacity value. And a step. 12. A computer comprising: a processor connected to a database; processor number information indicating the number of processors provided in the machine; processing number information indicating the number of times the processor performs an operation on the database according to a program; Information acquisition means for acquiring required time information indicating a predicted value of the required time required to execute, based on the processor number information, the processing number information and the required time information acquired by the information acquisition means, A processing capacity value calculating means for determining a processing capacity value indicating the number of times the machine can execute the program within a predetermined time, and outputting information indicating the processing capacity value; and recording a program for causing the machine to function as Computer readable recording medium.