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IntroductionWelcome to the Feynman@Home France-Japan-CERN Collaboration. | ||||||||
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| < < | The Feynman@Home project is an attempt to solve both CPU-time and memory space problems related to the automatic computation of complex | |||||||
| > > | The Feynman@Home project is an attempt to solve both CPU and memory issues related to the automatic computation of complex | |||||||
| LHC and linear colliders (ILC/ | ||||||||
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| < < | CLIC) physics processes. Based on the development of an improved version of BOINC for multi-client code and soft synchronization it offers, in return, a live presentation of current HEP and Astrophysics programs and projects in the hope to increase the public understanding and interest to fundamental research. | |||||||
| > > | CLIC) physics processes. High precision numerical floating point calculations are often necessary to address the integration of singular amplitudes which imply CPU intensive computations. In addition complex processes lead to very large integrant often in the Gbyte scale. Based on the development of an improved version of BOINC for multi-client code and soft synchronization it offers, in return, a live presentation of current HEP and Astrophysics programs and projects in the hope to increase the public understanding and interest to fundamental research. | |||||||
| Using the GRACE | ||||||||
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| < < | package (KEK) for helicity amplitude code generation, it implements the multi-dimensional phase space integration (BASES) and event generation (SPRING ) packages in the framework of an hybrid computing system combining dedicated (clusters or the GRID) and public computing. | |||||||
| > > | package (KEK) for helicity amplitude code generation, it implements the multi-dimensional phase space integration (BASES) and event generation (SPRING ) packages in the framework of an hybrid computing system combining the GRID or dedicated clusters and public distributed computing. | |||||||
| Target physics processes will be selected both by the collaboration members and, through a self-service approach, by any physicist interested in a particular physics issue. | ||||||||
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