KR100952364B1 - Method and System for generating and operating of multiple job in grid computing environment - Google Patents

Abstract

The present invention provides a method and system for creating and executing multiple tasks in a grid computing environment, comprising: a task execution file request including application information, parameter setting information, and grid middleware information input from an application through an application parameter definition language When a message is generated and transmitted to a job execution file generation server, the job execution file request server analyzes the job execution file request message to check grid middleware, and executes a job according to the identified job execution request file format of the grid middleware. Generating a request file, generating at least one parameter input file using the parameter setting information included in the message, and transmitting the request file to the client together with the job execution request file; , A task execution request message including a task execution file is generated and transmitted to a task execution server so that the corresponding grid middleware of the task execution server performs the corresponding task. By describing a plurality of grid tasks through an application parameter definition language, There is no need for users to create a specification for individual multiple grid jobs, and they can submit job specifications integrated into heterogeneous grid middleware.

Grid Computing, Grid Middleware, Parameters, Applications

Description

Method and System for generating and operating of multiple job in grid computing environment

 The present invention is directed to a method and system for multiple task creation and execution in a grid computing environment that automatically generates multiple parameters with different parameters to simultaneously simulate complex problems in a grid computing environment.

Grid computing means that when you run a PC or other device connected to the Internet, you are not just connecting to the resources on your desktop, but sharing the resources of the virtual machine. Virtual computers include computing power, storage, applications, data, and I / O devices, and can be shared anywhere over the Internet.

In other words, grid computing is a next-generation digital neural network service that connects resources such as high-performance computers, mass storage devices, and advanced equipment that are geographically dispersed in a high-speed network to share and use each other. Grid computing naturally evolves the Internet to the next level, evolving into a virtual organization that shares resources among distributed computer systems.

In an e-Science environment, researchers want to share grid-based computing and data storage resources to conduct research anywhere and collaborate with colleagues. This environment makes it possible to simulate and experiment with complex problems that have never been done before in the fields of astrophysics, particle physics, biology, chemistry and medical science.

Parameter studies run scientific applications that are performed differently depending on parameters. Each time such an application is run, it selects different parameters from the previous ones to find out which parameters the researchers need.

The more complex the problem to solve, the more complex the redesign process and the optimization of the parameters.

If scientific application programs are to be run on a grid, the requirements for the redesign process and the parameter optimization process will grow exponentially because the grid environment is dynamic and heterogeneous.

To provide flexibility and adaptability to parametric studies, designing a grid-aware description language and developing a scheduler are key parts.

Job submission description langugage (JSDL) is a standard language for describing jobs that operate in a grid environment. JSDL is a collection of various vocabulary and XML elements related to job submission, including a formal XML schema that can describe the representation and requirements of an application, and supports formal extension methods to represent tasks or resources.

In general, scientific applications often identify characteristics through a number of input parameters, and these parameters are often described through separate input files.

However, the conventional JSDL does not properly describe the input parameters of the application generating the job. Therefore, the parameters described in the input file are dynamically recognized at the time of job creation and the input values are acquired from the user and applied when the job is executed. It is necessary to have skills.

In addition, since a task execution system in a recent grid environment needs to support various middlewares, it is oriented toward an independent and standards-based job submission format, and thus, parameters of an application need to be defined in a standardized format.

Accordingly, it is an object of the present invention to provide a method and system for creating and executing multiple tasks in a grid computing environment that can automatically generate multiple tasks with different parameters to simulate complex problems in a grid computing environment. .

Another object of the present invention is to design an Application Parameter Description Language (APDL) that can describe a parameter and a task creation method for automatically generating a plurality of tasks, and that is a web service based parameter study module. This study provides a method and system for creating and executing multiple tasks in a grid computing environment that can automatically generate a large number of tasks by understanding APDL in a parameter study service (PSS).

It is still another object of the present invention to generate a plurality of jobs by generating different parameter input files using APDL, to generate a job request file of a job in accordance with the job request format of various grid middleware, and to a plurality of grid resources The present invention provides a method and system for creating and executing multiple tasks in a grid computing environment that provides an executable environment.

It is yet another object of the present invention to provide a method and system for multiple task creation and execution in a grid computing environment in which parameters described in an input file can be dynamically recognized at task creation and input values can be obtained from a user and applied at run time. To provide.

According to an aspect of the present invention to achieve the above object, in the method for creating and executing multiple tasks in a grid computing environment, (a) the application information, parameter setting input through the application parameter definition language at the client Generate a job execution file request message including information and grid middleware information, and transmit the generated job execution file request message to a job execution file generating server, (b) analyzing the job execution file request message at the job execution file generating server to check grid middleware, Generate a job execution request file according to the job execution request file format of the checked grid middleware, and generate at least one parameter input file using the parameter setting information included in the message and together with the job execution request file Send to the client, and (c) When the client receives a job execution file including a job execution request file and a parameter input file from the job execution file generation server, a job execution request message including the job execution file is generated and transmitted to the job execution server. A method for creating and executing multiple tasks in a grid computing environment is provided.

In the step (a), when the client executes an application parameter definition language, it is connected with the job execution file generation server to display an application selection screen, and when application and grid middleware information is input through the application selection screen, Transmits an application information request message to a job execution file generation server, searches a database provided by the job execution file generation server, extracts information about an application included in the application information request message, and transmits the information to the client; When parameter setting information is input from a client, a job execution file request message including the application information, parameter setting information, and grid middleware information is generated and transmitted to the job execution file generation server. And a system.

In the step (b), (b-1) identifying the grid middleware by analyzing the job execution file request message, and generating a job execution request file according to the identified job request file format of the grid middleware, (b Checking the parameter setting information included in the job execution file request message, and obtaining an array of individual parameter values according to a method for obtaining the individual parameter value ranges included in the parameter setting information, (b- 3) obtaining an array of parameter set combinations through combinations of the obtained individual parameter values according to a combination method of parameter sets included in the parameter setting information, (b-4) of the obtained parameter set combinations Generating at least one parameter input file having different parameters using an array; and (b-5) the generated parameter input file and the To create a job executable file including a run-up request file is characterized in that it comprises the step of transmitting to the client.

According to another aspect of the present invention, in a system for creating and executing multiple tasks in a grid computing environment, when application information, parameter setting information, and grid middleware information are input through an application parameter definition language, the input information is inputted. Generating a job execution file request message including a job execution file, and receiving a job execution file in response to the job execution file request message, a client requesting a job to the job execution server, and receiving a job execution file request message from the client, Analyze the message to generate a job execution request file for executing the job in the grid middleware, and generate one or more parameter input files using the parameter setting information and transmit the job execution request file to the client together with the job execution request file. Doing Execution file generation server, if a job execution request message is received from the client, and determines the grid middleware, and includes a job execution server to perform the job corresponding to the job execution file included in the determined grid middleware A system for creating and executing multiple tasks in a grid computing environment is provided.

Accordingly, the present invention develops a job submission language for automatically generating a plurality of grid jobs with different parameters, and describes a plurality of grid jobs based thereon, thereby allowing a user to create a specification for individual multiple grid jobs. It is possible to provide a method and system for creating and executing multiple jobs in a grid computing environment that can submit job specifications integrated into heterogeneous grid middleware as well as being easy to do not need.

In addition, the APDL can be used to create a different parameter input file to create a plurality of jobs, to create a job request file for a job in accordance with various grid middleware job request formats, and to simultaneously execute on multiple grid resources. Provided are methods and systems for creating and executing multiple tasks in a grid computing environment that can be provided.

In addition, it is possible to provide a method and system for generating and executing multiple tasks in a grid computing environment in which parameters described in an input file are dynamically recognized when a task is created and input values are obtained from a user and applied at runtime. .

Details of the above-described objects and technical configurations of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

1 is a diagram showing a system for creating and executing multiple tasks in a grid computing environment according to the present invention, and FIG. 2 is a diagram showing the structure of an APDL according to the present invention.

Referring to FIG. 1, a system for generating and executing multiple tasks in a grid computing environment includes a client 100, a task execution file generation server 150, and a task execution server 180.

When the client 100 and the parameter setting information for the application to be executed are input through the APDL, the client 100 generates a job execution file request message and transmits it to the job execution file generation server 150. The job execution file request message includes application information, grid middleware information, parameter setting information, and the like.

In addition, when the client 100 receives a job execution file from the job execution file generation server 150, the client 100 requests the job execution server 180 to execute a job.

Client 100 performing the above role is APDL execution unit 102, the application information request unit 104, the job execution file request unit 106, the job execution request unit 108, the job status monitoring unit 110 It consists of).

When an APDL execution command is input, the APDL execution unit 102 executes the embedded APDL to be connected to the job execution file generation server 150.

The APDL is a language for automatically generating a plurality of grid jobs with different parameters and has a structure as shown in FIG. 2.

Referring to FIG. 2, the APDL 200 includes a job defining portion 210 and a parameter defining portion 250.

The task definition part 210 expresses an application to be executed and a corresponding grid middleware.

The parameter definition part 250 is a part representing all parameters of the application defined in the job definition part 210, and includes a parameter set definition part 260 and a parameter set combination method definition part 270. Divided.

The parameter set defining portion 260 represents a characteristic of an individual parameter for a corresponding application, and is divided into an individual parameter characteristic defining portion 262 and an individual parameter value range defining portion 264.

The individual parameter property definition part 262 defines information such as name, data type, default value, input type, etc. of each parameter, and the individual parameter value range definition part 264 stores a plurality of values of each parameter. Store as an array

The parameter set combination method definition portion 270 defines a combination method of the parameter set, and the combination method of the parameter set includes a serial combination method, a parallel combination method, an overlapping combination method, and the like.

Referring back to FIG. 1, when an application to be executed is selected by a user, the application information requesting unit 104 generates an application information request message requesting information on the selected application and generates the job execution file generating server ( 150 and the corresponding application information is received in response to the application information request message from the job execution file generation server 150.

In this case, the application information includes the name, version and description of the application.

The job execution file requesting unit 106 receives the application information received from the application information requesting unit 104 when the parameter setting information for the application selected by the application information requesting unit 104 is input through the APDL. The job execution file request message including the parameter setting information is generated and transmitted to the job execution file generation server 150. Here, the parameter setting information includes a range of actual values of each parameter, a parameter value combination method, and the like.

The job execution file request message includes application information, grid middleware information, parameter setting information, and the like.

When the job execution file is received from the job execution file generation server 150, the job execution request unit 108 requests the job execution server 180 to execute the job.

The job state monitoring unit 110 serves to monitor the completion of the job in the job execution server 180.

When the job execution file generation server 150 receives the job execution file request message from the client 100, the job execution file generation server 150 uses the application information, grid middleware information, and parameter setting information included in the job execution file request message as parameters. Create a number of job executables with different.

The job execution file generation server 150 which performs the above roles includes an application information database 152, an application searcher 154, a job request file generator 156, a parameter input file generator 158, and a job. It includes an executable file generation unit 160.

The application information database 152 stores application information such as the name, version, and description of the application.

When the application search unit 154 receives an application information request message from the application information request unit 104, the application search unit 154 searches the application information database 152 to extract corresponding application information, and extracts the extracted application information. The application information request unit 104 is transmitted.

When the job request file generation unit 156 receives a job execution file request message from the job execution file request unit 106, the job request file generation unit 156 checks application information and grid middleware information included in the job execution file request message, and checks the application. Creates a work request file in a form suitable for the format of the built-in grid middleware.

When the parameter input file generation unit 158 receives a job file request message from the job execution file request unit 106, the parameter input file generation unit 158 checks parameter setting information included in the job execution file request message to determine individual parameter values. Get an array and combine the array values of that parameter to create a parameter input file with different parameters.

The job execution file generator 160 generates a job execution file by combining the job request file generated by the job request file generator 156 and the parameter input file generated by the parameter input file generator 158. The job execution file is transmitted to the job execution request unit 108. The job execution file includes a job request file and a parameter input file.

The job execution server 180 includes one or more grid middleware 182. When the job execution request message is received from the job execution request unit 108, the job execution request message is analyzed to determine the grid middleware. And the determined grid middleware to perform a task corresponding to a task execution file included in the message.

The client 100 and the job execution file generation server 150 have a structure that can be accessed through a web service agreement, and the client 100 and the job execution server 180 comply with the agreement defined by the lower grid middleware. It may be a structure to communicate.

3 is a flow diagram illustrating a method for creating and executing multiple tasks in a grid computing environment in accordance with the present invention.

Referring to FIG. 3, when the APDL is executed (S300) and an application to be executed is selected (S302), the client requests information about the selected application from the job execution file generation server (S304).

That is, when the APDL is executed, the client is connected to the job execution file generation server, and when a user selects / inputs an application through the APDL, an application information request message requesting information about the selected application is displayed. It is sent to the executable file creation server. In this case, the user may select the grid middleware as well as the application selection.

Upon receiving the application information request message, the job execution file generation server searches for the provided application information database, extracts information about the requested application, and transmits the information about the requested application to the client (S306).

When the client receiving the application information receives parameter setting information from the user through APDL (S308), the client generates a job execution file request message including the input parameter setting information, the application information, and grid middleware information. By transmitting to the job execution file generation server (S310).

The job execution file generation server checks the grid middleware information included in the job execution file request message and generates a job request file corresponding to the checked grid middleware format (S312).

Then, the job execution file generation server generates a parameter input file according to the parameter setting information included in the job execution file request message (S314).

Then, the job execution file generation server adds the generated job request file and the parameter input file to generate a job execution file (S316), and transmits the generated job execution file to the client (S318).

The client receiving the job execution file transmits a job execution request message including the job execution file to the job execution server (S320). At this time, the client monitors the job status in the job execution server.

Then, the job execution server executes the corresponding job according to the job execution file included in the job execution request message (S322), and when the job is completed, transmits a job execution completion message to the client (S324).

4 is a flowchart illustrating a method for requesting a task to be executed by a grid midware according to the present invention, and FIGS. 5A to 5C are screen views for explaining the process of FIG. 4.

Referring to FIG. 4, when the client executes the application parameter definition language (S400), the client is connected to the job execution file generation server (S402), and an application selection screen as shown in FIG. 5A is displayed (S404).

The application selection screen 500 includes an application selection area 502 and a grid middleware selection area 504. Accordingly, the user selects a desired application in the application selection area 502 and selects or inputs a desired grid middleware in the grid middleware selection area 504.

When an application and grid middleware are selected through the displayed application selection screen (S406), the client transmits an application information request message for requesting information about the selected application to the job execution file generation server (S408).

Receiving the application information request message, the job execution file generation server searches the provided application information database, extracts the corresponding application information, and transmits it to the client. The application information includes a description of the corresponding application, a version, the number of parameters, characteristics of each parameter, and the like.

When the application information is received in response to the application request message, the client displays the application information as shown in FIG. 5B (S410). The application information providing screen 510 displays information such as an application name 512, a description 514, a version 516, and the like.

After the execution of S410, if a parameter setting command is input by the user (S412), the client displays a parameter setting screen as shown in FIG. 5C (S414).

The parameter setting screen 520 includes a parameter set combination method selection area 522, a parameter value range acquisition method selection area 524, and an individual parameter range acquisition method selection area 526.

Since the parameter set combination method selection area 522 includes a serial combination, a parallel combination, a nested combination method, and the like, the user selects a desired method.

Since the parameter value range obtaining method selection area 524 has a dynamic method (auto) and a static method (ordered), the user selects a desired method. The dynamic method is a method of automatically obtaining a parameter value range through an initial value, an end value, and an increment value input by a user, and the static method is a parameter value range using a parameter value directly input by a user. It is a way to obtain.

In the range acquisition method selection area 526 of the individual parameter, parameter characteristics of the corresponding application are displayed. That is, the range acquisition method selection area 526 of the individual parameters includes a parameter name, a parameter data type, a parameter default value, The parameter input type (auto / ordered), and individual parameter value range setting areas (start, end, step, ordered value) are displayed.

Accordingly, if the method selected in the parameter value range obtaining method selection area 524 is a dynamic method, the user may select an initial value (i.e., in the individual parameter value range setting area of the range obtaining method selection area 526 of the individual parameter. Enter start, end and increment values directly.

In addition, if the method selected in the parameter value range obtaining method selection area 524 is a static method, the user directly enters the parameter value in the individual parameter value range setting area of the range obtaining method selection area 526 of the individual parameter. Enter the parameter value directly in the input field.

When the parameter setting information is input through the parameter setting screen displayed in step S414 (S416), the client generates a job execution file request message including the parameter setting information and transmits it to the job execution file generating server. (S418).

That is, the client receives parameter setting information including a parameter combination method, a parameter value range obtaining method, an individual parameter range obtaining method, and the like through the parameter setting screen, and the input parameter setting information. A job execution file request message including application information and grid middleware information is generated and transmitted to the job execution file generation server.

When the client receives the job execution file in response to the job execution file request (S420), the client requests a job execution from the grid middleware (S422).

6 is a flowchart illustrating a method for generating a job request file by a job execution file generation server according to the present invention.

Referring to FIG. 6, when a job execution file request message is received (S600), the job execution file generation server analyzes the message and checks application execution information (S602). Here, the application execution information includes application information and grid middleware information.

Then, the job execution file generation server checks grid middleware in the checked application execution information (S604), and confirms a job request file format for the checked grid middleware (S606). That is, the job execution file generation server stores a job request file type for each grid middleware. When the job middle file generation type is confirmed, the job execution file generation server may check a job request file type for the grid middleware.

After the operation of S606, the job execution file generation server generates a job request file corresponding to the checked job request file format (S608). Therefore, the generated work request file may be different for each grid middleware.

7 is a flowchart illustrating a method of generating a parameter input file by a job execution file generating server according to the present invention, and FIGS. 8A to 8E are screen views for explaining a method of obtaining an arrangement of parameter set combinations. .

Referring to FIG. 7, when a job execution file request message is received (S700), the job execution file generation server checks parameter setting information included in the job execution file request message (S702).

The parameter setting information includes the number of parameters of the application, individual parameter characteristics, an individual parameter value range acquisition method, a combination method of parameter sets, and the like. Here, the parameter property includes a parameter name, a parameter data type, a parameter default value, a parameter input type, and the like.

After the execution of the step S702, the job execution file generation server obtains an array of individual parameter values according to the method for obtaining individual parameter value ranges included in the parameter setting information (S704). The method of obtaining a range of values of the parameter is divided into a static method and a dynamic method.

If the individual parameter value range acquisition method is a static method, the job execution file generating server obtains an array of parameter values directly input by the user.

In addition, if the individual parameter value range acquisition method is a dynamic method, the job execution file generating server recognizes the initial value, the end value, and the increment value input by the user, and increases the increment value from the first value to the end value by the parameter. Get an array of variable values.

After the execution of the step S704, the job execution file generation server obtains an arrangement of parameter set combinations through combinations of parameters according to a combination method of parameter sets included in the parameter setting information (S706).

The combination method of the parameter set includes a serial combination method, a parallel combination method, and an overlapping combination method.

When the combination method of the parameter sets is a serial combination method, the job execution file generation server arranges parameter values other than itself by taking a default value when its parameter array is combined among the parameter set arrays.

In addition, if the combination of parameter sets is a parallel combination method, the parameter is combined with the same number of parameter values in the parameter set array, and the parameter takes the default value if the parameter has no digits.

In addition, if the combination method of the parameter set is a nested combination method, all the values of the parameter set array are combined and arranged.

In addition, if the combination method of the parameter set is a combination file method, an array is obtained after obtaining the parameter set combination file directly from the user.

After the execution of the step S706, the job execution file generation server generates one or more parameter input files with different parameters by using the obtained arrangement of the parameter set combination (S708).

For example, a case of generating a parameter input file using a parameter having a default value set as shown in FIG. 8A will be described.

First, if the combination method of the parameter sets is a serial combination method, an arrangement as shown in Fig. 8B is obtained. That is, when its own parameter array is combined among the parameter set arrays, parameter values other than itself are taken as default values to obtain an array as shown in FIG. 8B.

Then, each obtained array is a parameter input file. In this case, therefore, nine parameter input files are created. For example, the parameter input file for array 800 may be as shown in FIG. 8E.

Next, if the combination method of the parameter sets is a parallel combination method, an arrangement as shown in Fig. 8C is obtained. That is, when the array is combined with the parameter values having the same number of parameters in the parameter set array and the parameter has no digits, the parameter default value is obtained to obtain an array as shown in FIG. 8C.

Then, each obtained array is a parameter input file. In this case, therefore, three parameter input files are created.

Finally, if the combination method of the parameter set is an overlapping combination method, an arrangement as shown in FIG. 8D is obtained. That is, an array as shown in FIG. 8D is obtained by combining all the values of the parameter set array. Then, each obtained array is a parameter input file. Therefore, 27 parameter input files are created in this case.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

1 illustrates a system for creating and executing multiple tasks in a grid computing environment in accordance with the present invention.

2 is a diagram showing the structure of an APDL according to the present invention;

3 is a flow diagram illustrating a method for creating and executing multiple tasks in a grid computing environment in accordance with the present invention.

4 is a flow diagram illustrating a method for a client to request grid midware to execute a task in accordance with the present invention.

5A through 5C are screen examples for explaining the process of FIG. 4.

6 is a flowchart illustrating a method for generating a job request file by a job execution file generation server according to the present invention;

7 is a flowchart illustrating a method for generating a parameter input file by a job execution file generating server according to the present invention.

8A to 8E are diagrams for explaining a method of obtaining an arrangement of parameter set combinations.

<Explanation of symbols for the main parts of the drawings>

100: client 102: APDL execution unit

104: application information request unit 106: job execution file request unit

108: job execution request unit 110: job status monitoring unit

150: job execution file generation server 152: application information database

154: application search unit 156: work request file generation unit

158: parameter input file generation unit 160: job execution file generation unit

180: job execution server 182: grid middleware

Claims (20)

A method for creating and executing multiple tasks in a grid computing environment, (a) generating, by the client, a job execution file request message including application information, parameter setting information, and grid middleware information input through an application parameter definition language and transmitting the generated job execution file request message to a job execution file generating server; (b) analyzing the job execution file request message in the job execution file generating server to check grid middleware, generating a job execution request file according to the job execution request file format of the checked grid middleware, and including the message in the message; Generating at least one parameter input file using the supplied parameter setting information and transmitting the at least one parameter input file to the client together with the job execution request file; and (c) When the client receives a job execution file including a job execution request file and a parameter input file from the job execution file generation server, generates a job execution request message including the job execution file to the job execution server. And transmitting the step (a). When the client executes an application parameter definition language, it is connected to the job execution file generation server to display an application selection screen. When application and grid middleware information is input through the application selection screen, the job execution file generation server is transmitted. Transmitting an application information request message; Searching for a database provided by the job execution file generation server, extracting information about an application included in the application information request message, and transmitting the extracted information to the client; and When the parameter setting information is input from the client, generating a job execution file request message including the application information, parameter setting information, grid middleware information and transmitting to the job execution file generation server For creating and running multiple tasks in a grid computing environment. The method of claim 1, (d) analyzing the job execution request message in the job execution server to determine a corresponding grid middleware, and performing the job corresponding to the job execution file included in the message by the determined grid middleware; A method for creating and executing multiple tasks in a grid computing environment. delete The method of claim 1, And the application information includes at least one of a name, description, version, number of parameters, and parameter features for the corresponding application. The method of claim 1, The parameter setting information may include at least one of a characteristic of an individual parameter inserted into a corresponding application, a method of obtaining a range of individual parameter values, and a combination of parameter sets. Method for execution. The method of claim 5, And wherein said characteristic of said individual parameter comprises at least one of a parameter name, a parameter data type, a parameter default value, and a parameter input type. The method of claim 1, The application parameter definition language comprises a task definition portion and a parameter definition portion. The method of claim 7, wherein The task definition portion defines a grid middleware and an application to be executed, the method for creating and executing multiple tasks in a grid computing environment. The method of claim 7, wherein The parameter definition portion defines a parameter for an application defined in the task definition portion, and defines a combination method of a parameter set definition portion and a parameter set defining individual parameter characteristics and individual parameter value ranges. A method for creating and executing multiple tasks in a grid computing environment, characterized in that the set of parameter set combinations is defined. The method of claim 1, In step (b), (b-1) checking the grid middleware by analyzing the job execution file request message, and generating a job execution request file according to the identified job request file format of the grid middleware; (b-2) checking parameter setting information included in the job execution file request message and obtaining an array of individual parameter values according to a method for obtaining individual parameter value ranges included in the parameter setting information; (b-3) obtaining an arrangement of parameter set combinations through combinations of the obtained individual parameter values according to a combination method of parameter sets included in the parameter setting information; (b-4) generating at least one parameter input file having different parameters using the obtained arrangement of parameter sets; and (b-5) generating and executing a multi-task in a grid computing environment, comprising: generating and executing a task execution file including the generated parameter input file and the task execution request file to the client; Way. The method of claim 10, In the step (b-2), if the individual parameter value range acquisition method included in the parameter setting information is a static method, an arrangement of parameter values directly input by the client is obtained. Method for creating multiple jobs. The method of claim 10, In the step (b-2), if the range acquisition method of the individual parameter values included in the parameter setting information is a dynamic method, the initial value, the end value and the increment value of the value input by the client are recognized. A method for creating multiple tasks in a grid computing environment, wherein an array of parameter values is obtained by incrementing from an initial value to an end value. The method of claim 10, In the step (b-3), if the combination method of the parameter sets included in the parameter setting information is a serial combination method, parameter values other than itself are combined when their parameter arrays are combined in the parameter set arrays. A method for creating multiple tasks in a grid computing environment, wherein the array is taken by default. The method of claim 10, In the step (b-3), if the combination method of the parameter sets included in the parameter setting information is a parallel combination method, the parameters are combined with the parameter values having the same number of digits in the parameter set array and there is no place value. Method for creating multiple tasks in a grid computing environment, wherein if the variable is a variable, the default value of the parameter is obtained to obtain an array. The method of claim 10, In the step (b-3), if the combination method of the parameter set included in the parameter setting information is an overlapping combination method, the grid computing environment characterized in that the combination is obtained by combining all the values of the parameter set array. For creating multiple jobs on Windows. The method of claim 10, In the step (b-3), if the parameter combination method included in the parameter setting information is a combination file method, a grid computing environment comprising acquiring a parameter set combination file directly from the client to obtain an arrangement For creating multiple jobs on Windows. A system for creating and executing multiple tasks in a grid computing environment, When application information, parameter setting information, and grid middleware information are input through an application parameter definition language, a job execution file request message including the input information is generated, and a job is executed in response to the job execution file request message. A client requesting a job to a job execution server when the file is received; When the job execution file request message is received from the client, the message is analyzed to generate a job execution request file for executing the job in the grid middleware, and one or more parameter input files are generated using the parameter setting information. A job execution file generation server for transmitting the job execution request file to the client together; When the job execution request message is received from the client, the corresponding grid middleware is determined, and the job execution server performs the operation corresponding to the job execution file included in the determined grid middleware. Including, the client, An APDL execution unit executing an application parameter definition language (APDL); An application information requesting unit requesting and receiving information on the selected application when an application to be executed is selected through an application parameter definition language executed by the APDL execution unit; When the parameter setting information for the application selected by the application information request unit is input, a job execution file request message including the application information received by the application information request unit, the parameter setting information, and grid middleware information is generated. A job execution file request unit for transmitting to the job execution file generation server; A job execution request unit requesting the job execution server to execute a job when the job execution file requested by the job execution file request unit is received from the job execution file generation server; and And a job status monitoring unit for monitoring completion of a job in the job execution server. delete The method of claim 17, The job execution file generation server, An application information database storing a name, a version, and a description of each application; An application search unit for searching for the application information database and extracting and transmitting corresponding application information when the application information request message is received from the client; A job request file generation unit which checks grid middleware information included in the job execution file request message and generates a job request file according to the identified grid middleware type when the job execution file request message is received from the client; When the job execution file request message is received from the client, the parameter setting information included in the job execution file request message is checked to obtain an array of individual parameter values, and a parameter set combination array is obtained to input at least one parameter. A parameter input file generator for generating a file; In the grid computing environment comprising a job execution file generating unit for generating a job execution file by combining the job request file generated by the job request file generator and the parameter input file generated by the parameter input file generator System for creating and running multiple jobs. The method of claim 17, The task execution server includes at least one grid middleware system for generating and executing multiple tasks in a grid computing environment.

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