Scholars@Duke publication: GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems

GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems

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Yu, VW-Z; Moussa, J; Kůs, P; Marek, A; Messmer, P; Yoon, M; Lederer, H; Blum, V

February 25, 2020

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Duke Scholars

Author Volker Blum Thomas Lord Department of Mechanical Engineering and Materia ...

Publication Date

February 25, 2020

Related Subject Headings

Nuclear & Particles Physics
08 Information and Computing Sciences
02 Physical Sciences
01 Mathematical Sciences

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Yu, V.-Z., Moussa, J., Kůs, P., Marek, A., Messmer, P., Yoon, M., … Blum, V. (2020). GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems.

Yu, Victor Wen-zhe, Jonathan Moussa, Pavel Kůs, Andreas Marek, Peter Messmer, Mina Yoon, Hermann Lederer, and Volker Blum. “GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems,” February 25, 2020.

Yu VW-Z, Moussa J, Kůs P, Marek A, Messmer P, Yoon M, et al. GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems. 2020.

Yu, Victor Wen-zhe, et al. GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems. 25 Feb. 2020.

Yu VW-Z, Moussa J, Kůs P, Marek A, Messmer P, Yoon M, Lederer H, Blum V. GPU-Acceleration of the ELPA2 Distributed Eigensolver for Dense Symmetric and Hermitian Eigenproblems. 2020.

Publication Date

February 25, 2020

Related Subject Headings

Nuclear & Particles Physics
08 Information and Computing Sciences
02 Physical Sciences
01 Mathematical Sciences