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Script-Based GPU-Ready ELM Development for Continuous Code Integration
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作者 Peter Schwartz Dali Wang +1 位作者 Fengming Yuan Peter Thornton 《Journal of Computer and Communications》 2024年第5期102-106,共5页
Designing and optimizing complex scientific code for new computing architectures is a challenging task. To address this issue in the E3SM land model (ELM) development, we developed a software tool called SPEL, which f... Designing and optimizing complex scientific code for new computing architectures is a challenging task. To address this issue in the E3SM land model (ELM) development, we developed a software tool called SPEL, which facilitates code generation, verification, and performance tuning using compiler directives within a Function Unit Test framework. In this paper, we present a SPEL extension that leverages the version control system (e.g., Git) to autonomous code generation and demonstrate its application to continuous code integration and development of the ELM software system. The study can benefit the scientific software development community. 展开更多
关键词 E3SM Land Model GPU code Porting Continuous code integration SPEL Scientific Software Refactorization
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Numerical Simulation of 2-D Radiation-Drive Ignition Implosion Process 被引量:6
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作者 勇珩 宋鹏 +5 位作者 翟传磊 康洞国 谷建法 杭旭登 古培俊 江松 《Communications in Theoretical Physics》 SCIE CAS CSCD 2013年第6期737-744,共8页
A Lagrangian compatible radiation hydrodynamic algorithm and the nuclear dynamics computing module are developed and implemented in the LARED Integration code, which is a radiation hydrodynamic code based on the 2-D c... A Lagrangian compatible radiation hydrodynamic algorithm and the nuclear dynamics computing module are developed and implemented in the LARED Integration code, which is a radiation hydrodynamic code based on the 2-D cylindrical coordinates for the numerical simulation of the indirect-drive Inertial Confined Fusion. A number of 1-D and 2-D ignition implosion numerical simulations by using the improved LARED Integration code (ILARED) are presented which show that the 1-D numerical results are consistent with those computed by the 1-D radiation hydrodynamic code RDMG, while the simulation results of the 2-D low-mode radiative asymmetry and hydrodynamic instability growth,according to the physical analysis and anticipation, are satisfactory. The capsules driven by the sources from SGII experiments are also simulated by ILARED, and the fuel shapes agree well with the experimental results. The numerical simulations demonstrate that ILARED can be used in the simulation of the 1-D and 2-D ignition capsule implosion using the multi-group diffusion model for radiation. 展开更多
关键词 LARED integration code ignition implosion capsule spherical symmetry Lagrangian compatibleradiation hydrodynamic algorithm
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