Intel TBB

Intel® Threading Building Blocks (Intel® TBB). Widely used C++ template library for task parallelism. Rich set of components to efficiently implement higher-level, task-based parallelism. Compatible with multiple compilers and portable to various operating systems.


References in zbMATH (referenced in 32 articles )

Showing results 1 to 20 of 32.
Sorted by year (citations)

1 2 next

  1. Bangerth, Wolfgang; Davydov, Denis; Heister, Timo; Heltai, Luca; Kanschat, Guido; Kronbichler, Martin; Maier, Matthias; Turcksin, Bruno; Wells, David: The deal.II library, version 8.4 (2016)
  2. Bauman, Paul T.; Stogner, Roy H.: GRINS: a multiphysics framework based on the libMesh finite element library (2016)
  3. Bock, Nicolas; Challacombe, Matt; Kalé, Laxmikant V.: Solvers for $\mathcalO(N)$ electronic structure in the strong scaling limit (2016)
  4. Ghysels, Pieter; Li, Xiaoye S.; Rouet, François-Henry; Williams, Samuel; Napov, Artem: An efficient multicore implementation of a novel HSS-structured multifrontal solver using randomized sampling (2016)
  5. Michailidis, Panagiotis D.; Margaritis, Konstantinos G.: Scientific computations on multi-core systems using different programming frameworks (2016)
  6. Rupp, Karl; Tillet, Philippe; Rudolf, Florian; Weinbub, Josef; Morhammer, Andreas; Grasser, Tibor; Jüngel, Ansgar; Selberherr, Siegfried: ViennaCL-linear algebra library for multi- and many-core architectures (2016)
  7. Kubica, Bartłomiej Jacek: Presentation of a highly tuned multithreaded interval solver for underdetermined and well-determined nonlinear systems (2015)
  8. Paulino, Hervé; Marques, Eduardo: Heterogeneous programming with single operation multiple data (2015)
  9. Tillenius, Martin: Superglue: a shared memory framework using data versioning for dependency-aware task-based parallelization (2015)
  10. Viejo, Diego; Garcia-Rodriguez, Jose; Cazorla, Miguel: Combining visual features and growing neural gas networks for robotic 3D SLAM (2014)
  11. Alam, Muhammad Rashed; Rahman, M.Sohel: A divide and conquer approach and a work-optimal parallel algorithm for the LIS problem (2013)
  12. Courbin, Pierre; Lupu, Irina; Goossens, Joël: Scheduling of hard real-time multi-phase multi-thread (MPMT) periodic tasks (2013)
  13. Sanchez, Luis Miguel; Fernandez, Javier; Sotomayor, Rafael; Escolar, Soledad; Garcia, J.Daniel: A comparative study and evaluation of parallel programming models for shared-memory parallel architectures (2013)
  14. Szafaryn, Lukasz G.; Gamblin, Todd; de Supinski, Bronis R.; Skadron, Kevin: Trellis: portability across architectures with a high-level framework (2013)
  15. Christensen, Brian B.; Nielsen, Michael B.; Museth, Ken: Out-of-core computations of high-resolution level sets by means of code transformation (2012)
  16. Fraguela, Basilio B.; Bikshandi, Ganesh; Guo, Jia; Garzarán, María J.; Padua, David; Von Praun, Christoph: Optimization techniques for efficient HTA programs (2012)
  17. Kubica, Bartłomiej Jacek: A class of problems that can be solved using interval algorithms (2012)
  18. Orts, Sergio; Garcia-Rodriguez, Jose; Viejo, Diego; Cazorla, Miguel; Morell, Vicente: GPGPU implementation of growing neural gas: application to 3D scene reconstruction (2012)
  19. Ritson, Carl G.; Sampson, Adam T.; Barnes, Frederick R.M.: Multicore scheduling for lightweight communicating processes (2012)
  20. Giacaman, Nasser; Sinnen, Oliver: Parallel iterator for parallelizing object-oriented applications (2011)

1 2 next