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7. KISTI 연구성과
학술지 발표논문
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Title
On the achievement of high fidelity and scalability for large-scale diagonalizations in DFT simulations
Author(s)
최성환
;
류훈
;
김우연
;
염민선
Publication Year
2018-08-15
Abstract
© 2018 Wiley Periodicals, Inc. Recent advance in high performance computing (HPC) resources has opened the possibility to expand the scope of density functional theory (DFT) simulations toward large and complex molecular systems. This work proposes a numerically robust method that enables scalable diagonalizations of large DFT Hamiltonian matrices, particularly with thousands of computing CPUs (cores) that are usual these days in terms of sizes of HPC resources. The well-known Lanczos method is extensively refactorized to overcome its weakness for evaluation of multiple degenerate eigenpairs that is the substance of DFT simulations, where a multilevel parallelization is adopted for scalable simulations in as many cores as possible. With solid benchmark tests for realistic molecular systems, the fidelity of our method are validated against the locally optimal block preconditioned conjugated gradient (LOBPCG) method that is widely used to simulate electronic structures. Our method may waste computing resources for simulations of molecules whose degeneracy cannot be reasonably estimated. But, compared to LOBPCG method, it is fairly excellent in perspectives of both speed and scalability, and particularly has remarkably less ( < 10%) sensitivity of performance to the random nature of initial basis vectors. As a promising candidate for solving electronic structures of highly degenerate systems, the proposed method can make a meaningful contribution to migrating DFT simulations toward extremely large computing environments that normally have more than several tens of thousands of computing cores.
Keyword
two-level parallelization; diagonalization
Journal Title
International Journal of Quantum Chemistry
Citation Volume
118
ISSN
0020-7608
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7. KISTI 연구성과
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학술지 발표논문
URI
https://repository.kisti.re.kr/handle/10580/14727
http://www.ndsl.kr/ndsl/search/detail/article/articleSearchResultDetail.do?cn=NART87019502
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