Landau collision integral solver with adaptive mesh refinement on emerging architectures

Mark F. Adams; Eero Hirvijoki; Matthew G. Knepley; Jed Brown; Tobin Isaac; Richard Mills

doi:10.1137/17M1118828

Landau collision integral solver with adaptive mesh refinement on emerging architectures

Mark F. Adams
, Eero Hirvijoki
, Matthew G. Knepley
, Jed Brown
, Tobin Isaac
, Richard Mills

Department of Computer Science and Engineering

Lawrence Berkeley National Laboratory
Princeton Plasma Physics Laboratory
University of Colorado Boulder
Georgia Institute of Technology
Intel

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The Landau collision integral is an accurate model for the small-angle dominated Coulomb collisions in fusion plasmas. We investigate a high order accurate, fully conservative, finite element discretization of the nonlinear multispecies Landau integral with adaptive mesh refinement using the PETSc library (www.mcs.anl.gov/petsc). We develop algorithms and techniques to efficiently utilize emerging architectures with an approach that minimizes memory usage and movement and is suitable for vector processing. The Landau collision integral is vectorized with Intel AVX-512 intrinsics and the solver sustains as much as 22% of the theoretical peak flop rate of the Second Generation Intel Xeon Phi (“Knights Landing”) processor.

Original language	English
Pages (from-to)	C452-C465
Journal	SIAM Journal on Scientific Computing
Volume	39
Issue number	6
DOIs	https://doi.org/10.1137/17M1118828
State	Published - 2017

Keywords

Fusion plasma physics
Landau collision integral

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10.1137/17M1118828

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title = "Landau collision integral solver with adaptive mesh refinement on emerging architectures",

abstract = "The Landau collision integral is an accurate model for the small-angle dominated Coulomb collisions in fusion plasmas. We investigate a high order accurate, fully conservative, finite element discretization of the nonlinear multispecies Landau integral with adaptive mesh refinement using the PETSc library (www.mcs.anl.gov/petsc). We develop algorithms and techniques to efficiently utilize emerging architectures with an approach that minimizes memory usage and movement and is suitable for vector processing. The Landau collision integral is vectorized with Intel AVX-512 intrinsics and the solver sustains as much as 22\% of the theoretical peak flop rate of the Second Generation Intel Xeon Phi (“Knights Landing”) processor.",

keywords = "Fusion plasma physics, Landau collision integral",

author = "Adams, \{Mark F.\} and Eero Hirvijoki and Knepley, \{Matthew G.\} and Jed Brown and Tobin Isaac and Richard Mills",

note = "Publisher Copyright: {\textcopyright} 2017 Society for Industrial and Applied Mathematics.",

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doi = "10.1137/17M1118828",

language = "English",

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T1 - Landau collision integral solver with adaptive mesh refinement on emerging architectures

AU - Adams, Mark F.

AU - Hirvijoki, Eero

AU - Knepley, Matthew G.

AU - Brown, Jed

AU - Isaac, Tobin

AU - Mills, Richard

PY - 2017

Y1 - 2017

N2 - The Landau collision integral is an accurate model for the small-angle dominated Coulomb collisions in fusion plasmas. We investigate a high order accurate, fully conservative, finite element discretization of the nonlinear multispecies Landau integral with adaptive mesh refinement using the PETSc library (www.mcs.anl.gov/petsc). We develop algorithms and techniques to efficiently utilize emerging architectures with an approach that minimizes memory usage and movement and is suitable for vector processing. The Landau collision integral is vectorized with Intel AVX-512 intrinsics and the solver sustains as much as 22% of the theoretical peak flop rate of the Second Generation Intel Xeon Phi (“Knights Landing”) processor.

AB - The Landau collision integral is an accurate model for the small-angle dominated Coulomb collisions in fusion plasmas. We investigate a high order accurate, fully conservative, finite element discretization of the nonlinear multispecies Landau integral with adaptive mesh refinement using the PETSc library (www.mcs.anl.gov/petsc). We develop algorithms and techniques to efficiently utilize emerging architectures with an approach that minimizes memory usage and movement and is suitable for vector processing. The Landau collision integral is vectorized with Intel AVX-512 intrinsics and the solver sustains as much as 22% of the theoretical peak flop rate of the Second Generation Intel Xeon Phi (“Knights Landing”) processor.

KW - Fusion plasma physics

KW - Landau collision integral

UR - https://www.scopus.com/pages/publications/85040009912

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DO - 10.1137/17M1118828

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SP - C452-C465

JO - SIAM Journal on Scientific Computing

JF - SIAM Journal on Scientific Computing

IS - 6

ER -

Landau collision integral solver with adaptive mesh refinement on emerging architectures

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