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Drekar v.2.0

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https://doi.org/10.11578/dc.20220414.50

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Abstract

Drekar is an application code that solves partial differential equations for fluids that can be optionally coupled to electromagnetics. Drekar solves low-mach compressible and incompressible computational fluid dynamics (CFD), compressible and incompressible resistive magnetohydrodynamics (MHD), and multiple species plasmas interacting with electromagnetic fields. Drekar discretization technology includes continuous and discontinuous finite element formulations, stabilized finite element formulations, mixed integration finite element bases (nodal, edge, face, volume) and an initial arbitrary Lagrangian Eulerian (ALE) capability. Drekar contains the implementation of the discretized physics and leverages the open source Trilinos project for both parallel solver capabilities and general finite element discretization tools. The code will be released open source under a BSD license. The code is used for fundamental research for simulation of fluids and plasmas on high performance computing environments.
Developers:
Seefeldt, Ben Sondak, David [1] Hensinger, David [2] Phipps, Eric [2] Foucar, James [2] Pawlowski, Roger [2] Cyr, Eric [2] Shadid, John [2] Smith, Thomas [2] Weber, Paula [2] Mabuza, Sibusiso [2] Bradley, Andrew [2] Wildey, Timothy [2] Von Winckel, Gregory [2] Kramer, Richard Michael [2] Phillips, Edward [2] Bettencourt, Matthew [2] Miller, Sean [2] Lin, Paul [2] Gates, Jason [2] Eillis, Truman [2] Conde, Sidafa [2]
  1. Rensselaer Polytechnic Institude/Univ. of Wisconsin Madison/Univ. of TX at Austin
  2. Sandia National Laboratories
Release Date:
2017-06-05
Project Type:
Open Source, No Publicly Available Repository
Software Type:
Scientific
Programming Languages:
C++
Licenses:
Other (Commercial or Open-Source): https://ip.sandia.gov/contact-form
Sponsoring Org.:
Code ID:
73050
Site Accession Number:
7543; SCR# 1437.1
Research Org.:
Sandia National Laboratories (SNL-NM), Albuquerque, NM (United States)
Country of Origin:
United States

RESOURCE

Project Landing Page
https://ip.sandia.gov/contact-form
https://doi.org/10.11578/dc.20220414.50

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Citation Formats

Seefeldt, Ben, Sondak, David, Hensinger, David M., Phipps, Eric T., Foucar, James G., Pawlowski, Roger P., Cyr, Eric C., Shadid, John N., Smith, Thomas M., Weber, Paula D., Mabuza, Sibusiso, Bradley, Andrew M., Wildey, Timothy M., Von Winckel, Gregory J., Kramer, Richard Michael J., Phillips, Edward G., Bettencourt, Matthew T., Miller, Sean, Lin, Paul, Gates, Jason M., Eillis, Truman E., and Conde, Sidafa. Drekar v.2.0. Computer Software. USDOE. 05 Jun. 2017. Web. doi:10.11578/dc.20220414.50.
Seefeldt, Ben, Sondak, David, Hensinger, David M., Phipps, Eric T., Foucar, James G., Pawlowski, Roger P., Cyr, Eric C., Shadid, John N., Smith, Thomas M., Weber, Paula D., Mabuza, Sibusiso, Bradley, Andrew M., Wildey, Timothy M., Von Winckel, Gregory J., Kramer, Richard Michael J., Phillips, Edward G., Bettencourt, Matthew T., Miller, Sean, Lin, Paul, Gates, Jason M., Eillis, Truman E., & Conde, Sidafa. (2017, June 05). Drekar v.2.0. [Computer software]. https://doi.org/10.11578/dc.20220414.50.
Seefeldt, Ben, Sondak, David, Hensinger, David M., Phipps, Eric T., Foucar, James G., Pawlowski, Roger P., Cyr, Eric C., Shadid, John N., Smith, Thomas M., Weber, Paula D., Mabuza, Sibusiso, Bradley, Andrew M., Wildey, Timothy M., Von Winckel, Gregory J., Kramer, Richard Michael J., Phillips, Edward G., Bettencourt, Matthew T., Miller, Sean, Lin, Paul, Gates, Jason M., Eillis, Truman E., and Conde, Sidafa. "Drekar v.2.0." Computer software. June 05, 2017. https://doi.org/10.11578/dc.20220414.50.
@misc{ doecode_73050,
title = {Drekar v.2.0},
author = {Seefeldt, Ben and Sondak, David and Hensinger, David M. and Phipps, Eric T. and Foucar, James G. and Pawlowski, Roger P. and Cyr, Eric C. and Shadid, John N. and Smith, Thomas M. and Weber, Paula D. and Mabuza, Sibusiso and Bradley, Andrew M. and Wildey, Timothy M. and Von Winckel, Gregory J. and Kramer, Richard Michael J. and Phillips, Edward G. and Bettencourt, Matthew T. and Miller, Sean and Lin, Paul and Gates, Jason M. and Eillis, Truman E. and Conde, Sidafa},
abstractNote = {Drekar is an application code that solves partial differential equations for fluids that can be optionally coupled to electromagnetics. Drekar solves low-mach compressible and incompressible computational fluid dynamics (CFD), compressible and incompressible resistive magnetohydrodynamics (MHD), and multiple species plasmas interacting with electromagnetic fields. Drekar discretization technology includes continuous and discontinuous finite element formulations, stabilized finite element formulations, mixed integration finite element bases (nodal, edge, face, volume) and an initial arbitrary Lagrangian Eulerian (ALE) capability. Drekar contains the implementation of the discretized physics and leverages the open source Trilinos project for both parallel solver capabilities and general finite element discretization tools. The code will be released open source under a BSD license. The code is used for fundamental research for simulation of fluids and plasmas on high performance computing environments.},
doi = {10.11578/dc.20220414.50},
url = {https://doi.org/10.11578/dc.20220414.50},
howpublished = {[Computer Software] \url{https://doi.org/10.11578/dc.20220414.50}},
year = {2017},
month = {jun}
}