TY - GEN
T1 - Application parameter description scheme for multiple job generation in problem solving environment
AU - Kim, Byungsang
AU - Nam, Dukyun
AU - Suh, Young Kyoon
AU - Lee, June Hawk
AU - Cho, Kumwon
AU - Hwang, Soonwook
PY - 2007
Y1 - 2007
N2 - In e-Science environments, scientists need to execute a scientific application with various parameters multiple times to simulate and experiment complicated problems on the Grid. For this, they should write every single job description with distinct parameters even if this is a troublesome task. To provide the flexibility and adaptability for parameter study, we propose an Application Parameter Description Language (APDL) and a service oriented parameter study scheme, called a Parametric Study Service (PSS), for parameterized simulations on the Grid. The APDL extends the Job Submission Description Language (JSDL) to generate parameters for multiple jobs. The proposed PSS provides a unified interface to submit jobs into various middleware platforms such as gLite, Globus, etc. The Problem Solving Environment (PSE) assists a parameter study for their applications and every research fields tend to construct individual own PSE., The proposed PSS can be easily adapted into the specific PSE because of being implemented as Web Services. In practice, we apply the APDL and the PSS into aerospace research PSE which carry out the three-dimensional turbulent analysis for compressible flow.
AB - In e-Science environments, scientists need to execute a scientific application with various parameters multiple times to simulate and experiment complicated problems on the Grid. For this, they should write every single job description with distinct parameters even if this is a troublesome task. To provide the flexibility and adaptability for parameter study, we propose an Application Parameter Description Language (APDL) and a service oriented parameter study scheme, called a Parametric Study Service (PSS), for parameterized simulations on the Grid. The APDL extends the Job Submission Description Language (JSDL) to generate parameters for multiple jobs. The proposed PSS provides a unified interface to submit jobs into various middleware platforms such as gLite, Globus, etc. The Problem Solving Environment (PSE) assists a parameter study for their applications and every research fields tend to construct individual own PSE., The proposed PSS can be easily adapted into the specific PSE because of being implemented as Web Services. In practice, we apply the APDL and the PSS into aerospace research PSE which carry out the three-dimensional turbulent analysis for compressible flow.
UR - http://www.scopus.com/inward/record.url?scp=44949147928&partnerID=8YFLogxK
U2 - 10.1109/E-SCIENCE.2007.13
DO - 10.1109/E-SCIENCE.2007.13
M3 - Conference contribution
AN - SCOPUS:44949147928
SN - 0769530648
SN - 9780769530642
T3 - Proceedings - e-Science 2007, 3rd IEEE International Conference on e-Science and Grid Computing
SP - 509
EP - 515
BT - Proceedings - e-Science 2007, 3rd IEEE International Conference on e-Science and Grid Computing
T2 - E-Science 2007, 3rd IEEE International Conference on E-Science and Grid Computing
Y2 - 10 December 2007 through 13 December 2007
ER -