Solvers for large-scale electronic structure theory: ELPA and ELSI

Petr Karpov; Andreas Marek; Tobias Melson; Alexander Pöppl; Victor Wen-zhe Yu; Ben Hourahine; Alberto Garcia; William Dawson; Yi Yao; William Huhn; Jonathan Moussa; Sam Hall; Reinhard Maurer; Uthpala Herath; Konstantin Lion; Sebastian Kokott; Volker Blum

doi:10.48550/arXiv.2502.02460

Solvers for large-scale electronic structure theory: ELPA and ELSI

Petr Karpov, Andreas Marek, Tobias Melson, Alexander Pöppl, Victor Wen-zhe Yu, Ben Hourahine, Alberto Garcia, William Dawson, Yi Yao, William Huhn, Jonathan Moussa, Sam Hall, Reinhard Maurer, Uthpala Herath, Konstantin Lion, Sebastian Kokott, Volker Blum

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Abstract

In this contribution, we give an overview of the ELPA library and ELSI interface, which are crucial elements for large-scale electronic structure calculations in FHI-aims. ELPA is a key solver library that provides efficient solutions for both standard and generalized eigenproblems, which are central to the Kohn-Sham formalism in density functional theory (DFT). It supports CPU and GPU architectures, with full support for NVIDIA and AMD GPUs, and ongoing development for Intel GPUs. Here we also report the results of recent optimizations, leading to significant improvements in GPU performance for the generalized eigenproblem. ELSI is an open-source software interface layer that creates a well-defined connection between "user" electronic structure codes and "solver" libraries for the Kohn-Sham problem, abstracting the step between Hamilton and overlap matrices (as input to ELSI and the respective solvers) and eigenvalues and eigenvectors or density matrix solutions (as output to be passed back to the "user" electronic structure code). In addition to ELPA, ELSI supports solvers including LAPACK and MAGMA, the PEXSI and NTPoly libraries (which bypass an explicit eigenvalue solution), and several others.

Original language	English
Number of pages	11
DOIs	https://doi.org/10.48550/arXiv.2502.02460
Publication status	Published - 4 Feb 2025

Funding

This project was supported by NOMAD Center of Excellence (European Union’s Horizon 2020 research and innovation program, Grant Agreement No. 951786) and the embedded CSE programme of the ARCHER2 UK National Supercomputing Service (http://www.archer2.ac.uk). We acknowledge CSC for awarding us access to LUMI supercomputer (Kajaani, Finland). ELSI was supported by the National Science Foundation 7(NSF), USA under Award No. 1450280.

Keywords

cond-mat.mtrl-sci
physics.comp-ph

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Cite this

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AU - Dawson, William

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Solvers for large-scale electronic structure theory: ELPA and ELSI

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