论文信息 - HPF Parallelization of a Molecular Dynamics Code: Strategies and Performances

HPF Parallelization of a Molecular Dynamics Code: Strategies and Performances

The High Performance Fortran (HPF) environment has been used to efficiently parallelize a Molecular Dynamics (MD) code. The MD code is a Tight-Binding code, properly specialized for semiconductor materials and characterized by inhomogeneous data distribution. Furthermore, the electronic properties are taken into account during the atomic dynamics: for this reason a large sparse matrix is built and diagonalized to compute the whole body of its eigenvalues and eigenvectors at each time step. For the diagonalization task, a parallel mathematical routine implemented. The strategy of parallelization, the integration of the mathematical routine in the HPF code are described and discussed. All the benchmark are performed on IBM SP architecture.

Vittorio Rosato | Beniamino Di Martino | Massimo Celino

[1] Wang,et al. Transferable tight-binding models for silicon. , 1994, Physical review. B, Condensed matter.

[2] J. Banavar,et al. Computer Simulation of Liquids , 1988 .

[3] M. Parrinello,et al. Strain fluctuations and elastic constants , 1982 .

[4] Rice UniversityCORPORATE,et al. High performance Fortran language specification , 1993 .

[5] C. W. Gear,et al. Numerical Integration of Ordinary Differential Equations , 2021, Numerical Methods and Optimization.

[6] C. W. Gear,et al. Numerical initial value problem~ in ordinary differential eqttations , 1971 .

[7] Stuart A. Rice,et al. New methods in computational quantum mechanics , 1996 .

[8] Frederica Darema,et al. A single-program-multiple-data computational model for EPEX/FORTRAN , 1988, Parallel Comput..

[9] Car,et al. Unified approach for molecular dynamics and density-functional theory. , 1985, Physical review letters.