Publications

Mabuza, Sibusiso M.; Shadid, John N.; Conde, Sidafa C.; Cyr, Eric C.; Smith, Thomas M.; Pawlowski, Roger P.; Kuzmin, Dmitri K.

Abstract not provided.

Bettencourt, Matthew T.; Shields, Sidney S.; Beckwith, Kristian B.; Cartwright, Keith C.; Cyr, Eric C.; Kramer, Richard M.; Lin, Paul L.; McDoniel, William M.; Miller, Sean M.; Pawlowski, Roger P.; Phillips, Edward G.; Roberts, Nathan V.

Abstract not provided.

Pawlowski, Roger P.

Abstract not provided.

Pawlowski, Roger P.

Abstract not provided.

Phipps, Eric T.; Pawlowski, Roger P.; Bettencourt, Matthew T.; Cyr, Eric C.; Roberts, Nathan V.

Abstract not provided.

Journal of Computational and Applied Mathematics

Lin, Paul L.; Shadid, John N.; Hu, J.J.; Pawlowski, Roger P.; Cyr, E.C.

This work explores the current performance and scaling of a fully-implicit stabilized unstructured finite element (FE) variational multiscale (VMS) capability for large-scale simulations of 3D incompressible resistive magnetohydrodynamics (MHD). The large-scale linear systems that are generated by a Newton nonlinear solver approach are iteratively solved by preconditioned Krylov subspace methods. The efficiency of this approach is critically dependent on the scalability and performance of the algebraic multigrid preconditioner. This study considers the performance of the numerical methods as recently implemented in the second-generation Trilinos implementation that is 64-bit compliant and is not limited by the 32-bit global identifiers of the original Epetra-based Trilinos. The study presents representative results for a Poisson problem on 1.6 million cores of an IBM Blue Gene/Q platform to demonstrate very large-scale parallel execution. Additionally, results for a more challenging steady-state MHD generator and a transient solution of a benchmark MHD turbulence calculation for the full resistive MHD system are also presented. These results are obtained on up to 131,000 cores of a Cray XC40 and one million cores of a BG/Q system.

Huang, Andy H.; Gao, Xujiao G.; Pawlowski, Roger P.; Gates, Jason M.; Musson, Lawrence M.; Hennigan, Gary L.; Negoita, Mihai N.

Abstract not provided.

Ober, Curtis C.; Pawlowski, Roger P.; Conde, Sidafa C.; Kalashnikova, Irina; Phipps, Eric T.; Phillips, Edward G.; Mota, Alejandro M.; Phlipot, Greg [.; Ridzal, Denis R.; Hansen, Michael A.; Fisher, Travis C.

Abstract not provided.

Cyr, Eric C.; Beckwith, Kristian B.; Bettencourt, Matthew T.; Cartwright, Keith C.; Kramer, Richard M.; Miller, Sean T.; Pawlowski, Roger P.; Phillips, Edward G.; Roberts, Nathan V.; Shadid, John N.

Abstract not provided.

Huang, Andy H.; Gao, Xujiao G.; Pawlowski, Roger P.; Gates, Jason M.; Musson, Lawrence M.; Hennigan, Gary L.; Negoita, Mihai N.

Abstract not provided.

Bettencourt, Matthew T.; Kramer, Richard M.; Cartwright, Keith C.; Phillips, Edward G.; Ober, Curtis C.; Pawlowski, Roger P.; Swan, Matthew S.; Kalashnikova, Irina; Phipps, Eric T.; Conde, Sidafa C.; Cyr, Eric C.; Ulmer, Craig D.; Kordenbrock, Todd H.; Levy, Scott L.; Templet, Gary J.; Hu, Jonathan J.; Lin, Paul L.; Glusa, Christian A.; Siefert, Christopher S.; Glass, Micheal W.

This report documents the outcome from the ASC ATDM Level 2 Milestone 6358: Assess Status of Next Generation Components and Physics Models in EMPIRE. This Milestone is an assessment of the EMPIRE (ElectroMagnetic Plasma In Realistic Environments) application and three software components. The assessment focuses on the electromagnetic and electrostatic particle-in-cell solu- tions for EMPIRE and its associated solver, time integration, and checkpoint-restart components. This information provides a clear understanding of the current status of the EMPIRE application and will help to guide future work in FY19 in order to ready the application for the ASC ATDM L 1 Milestone in FY20. It is clear from this assessment that performance of the linear solver will have to be a focus in FY19.

Pawlowski, Roger P.; Phillips, Edward G.; Shadid, John N.; Lin, Paul L.; Cyr, Eric C.; Conde, Sidafa C.; Bettencourt, Matthew T.; Phipps, Eric T.; Trott, Christian R.

Abstract not provided.

Pawlowski, Roger P.; Phillips, Edward G.; Shadid, John N.; Cyr, Eric C.; Conde, Sidafa C.; Bettencourt, Matthew T.; Phipps, Eric T.; Bond, Stephen D.; Trott, Christian R.

Abstract not provided.

Huang, Andy H.; Gao, Xujiao G.; Pawlowski, Roger P.; Gates, Jason M.; Musson, Lawrence M.; Hennigan, Gary L.; Negoita, Mihai N.

Abstract not provided.

Lin, Paul L.; Shadid, John N.; Phillips, Edward G.; Pawlowski, Roger P.; Cyr, Eric C.

Abstract not provided.

Lin, Paul L.; Shadid, John N.; Phillips, Edward G.; Pawlowski, Roger P.

Abstract not provided.

Toth, Alexander R.; Pawlowski, Roger P.; Bartlett, Roscoe B.

Abstract not provided.

Pawlowski, Roger P.; Turner, Daniel Z.

Abstract not provided.

Lin, Paul L.; Shadid, John N.; Phillips, Edward G.; Pawlowski, Roger P.; Cyr, Eric C.

Abstract not provided.

Pawlowski, Roger P.; Bettencourt, Matthew T.; Cyr, Eric C.; Miller, Sean M.; Phillips, Edward G.; Phipps, Eric T.; Shadid, John N.; Trott, Christian R.

Abstract not provided.

Ober, Curtis C.; Pawlowski, Roger P.; Kalashnikova, Irina; Conde, Sidafa C.; Cyr, Eric C.

Abstract not provided.

Pawlowski, Roger P.

Abstract not provided.

Bettencourt, Matthew T.; Cyr, Eric C.; Kramer, Richard M.; Miller, Sean M.; Pawlowski, Roger P.; Phillips, Edward G.; Robinson, Allen C.; Shadid, John N.

Abstract not provided.

Bettencourt, Matthew T.; Cyr, Eric C.; Kramer, Richard M.; Miller, Sean M.; Pawlowski, Roger P.; Phillips, Edward G.; Robinson, Allen C.; Shadid, John N.

Abstract not provided.

Lin, Paul L.; Shadid, John N.; Phillips, Edward G.; Hu, Jonathan J.; Cyr, Eric C.; Pawlowski, Roger P.

Abstract not provided.