References in zbMATH (referenced in 37 articles )

Showing results 1 to 20 of 37.
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  1. Bremer, Maximilian; Kazhyken, Kazbek; Kaiser, Hartmut; Michoski, Craig; Dawson, Clint: Performance comparison of HPX versus traditional parallelization strategies for the discontinuous Galerkin method (2019)
  2. Acun, Bilge; Buch, Ronak; Kale, Laxmikant; Phillips, James C.: NAMD: scalable molecular dynamics based on the charm++ parallel runtime system (2018)
  3. Badia, Santiago; Martín, Alberto F.; Principe, Javier: \textttFEMPAR: an object-oriented parallel finite element framework (2018)
  4. Ghale, Purnima; Kroonblawd, Matthew P.; Mniszewski, Sue; Negre, Christian F. A.; Pavel, Robert; Pino, Sergio; Sardeshmukh, Vivek; Shi, Guangjie; Hahn, Georg: Task-based parallel computation of the density matrix in quantum-based molecular dynamics using graph partitioning (2017)
  5. Kidder, Lawrence E.; Field, Scott E.; Foucart, Francois; Schnetter, Erik; Teukolsky, Saul A.; Bohn, Andy; Deppe, Nils; Diener, Peter; Hébert, François; Lippuner, Jonas; Miller, Jonah; Ott, Christian D.; Scheel, Mark A.; Vincent, Trevor: SpECTRE: A task-based discontinuous Galerkin code for relativistic astrophysics (2017)
  6. Santiago Badia, Alberto F. Martin, Javier Principe: FEMPAR: An object-oriented parallel finite element framework (2017) arXiv
  7. Bock, Nicolas; Challacombe, Matt; Kalé, Laxmikant V.: Solvers for (\mathcalO(N)) electronic structure in the strong scaling limit (2016)
  8. Harrison, Robert J.; Beylkin, Gregory; Bischoff, Florian A.; Calvin, Justus A.; Fann, George I.; Fosso-Tande, Jacob; Galindo, Diego; Hammond, Jeff R.; Hartman-Baker, Rebecca; Hill, Judith C.; Jia, Jun; Kottmann, Jakob S.; Yvonne Ou, M.-J.; Pei, Junchen; Ratcliff, Laura E.; Reuter, Matthew G.; Richie-Halford, Adam C.; Romero, Nichols A.; Sekino, Hideo; Shelton, William A.; Sundahl, Bryan E.; Thornton, W. Scott; Valeev, Edward F.; Vázquez-Mayagoitia, Álvaro; Vence, Nicholas; Yanai, Takeshi; Yokoi, Yukina: MADNESS: a multiresolution, adaptive numerical environment for scientific simulation (2016)
  9. Balaji, Pavan (ed.): Programming models for parallel computing (2015)
  10. Berenguer, L.; Tromeur-Dervout, D.: Asynchronous partial update of the restricted additive Schwarz preconditioner to solve nonlinear CFD problems (2015)
  11. Gonnet, Pedro: Efficient and scalable algorithms for smoothed particle hydrodynamics on hybrid shared/distributed-memory architectures (2015)
  12. Pinho, Eduardo Gurgel; Junior, Francisco Heron De Carvalho: An object-oriented parallel programming language for distributed-memory parallel computing platforms (2014)
  13. Bock, Nicolas; Challacombe, Matt: An optimized sparse approximate matrix multiply for matrices with decay (2013)
  14. Espinha, Rodrigo; Park, Kyoungsoo; Paulino, Glaucio H.; Celes, Waldemar: Scalable parallel dynamic fracture simulation using an extrinsic cohesive zone model (2013) ioport
  15. Hartley, Timothy D. R.; Saule, Erik; Çatalyürek, Ümit V.: Improving performance of adaptive component-based dataflow middleware (2012) ioport
  16. Miller, Phil; Becker, Aaron; Kalé, Laxmikant: Using shared arrays in message-driven parallel programs (2012) ioport
  17. Saule, Erik; Baş, Erdeniz Ö.; Çatalyürek, Ümit V.: Load-balancing spatially located computations using rectangular partitions (2012)
  18. Park, Kyoungsoo; Paulino, Glaucio H.: Parallel computing of wave propagation in three-dimensional functionally graded media (2011)
  19. Sun, Yanhua; Zheng, Gengbin; Jetley, Pritish; Kale, Laxmikant V.: ParSSSE: an adaptive parallel state space search engine (2011)
  20. Sudarsan, Rajesh; Ribbens, Calvin J.: Design and performance of a scheduling framework for resizable parallel applications (2010)

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