libflame

FLAME is a methodology for developing dense linear algebra libraries that is radically different from the LINPACK/LAPACK approach that dates back to the 1970s. By libflame we denote the library that has resulted from this project. For addition information, visit the FLAME home page.


References in zbMATH (referenced in 12 articles )

Showing results 1 to 12 of 12.
Sorted by year (citations)

  1. Elmar Peise; Paolo Bientinesi: Algorithm 979: Recursive Algorithms for Dense Linear Algebra - The ReLAPACK Collection (2017)
  2. Martinsson, Per-Gunnar; Quintana Ortí, Gregorio; Heavner, Nathan; van de Geijn, Robert: Householder QR factorization with randomization for column pivoting (HQRRP) (2017)
  3. Peise, Elmar; Bientinesi, Paolo: Algorithm 979: Recursive algorithms for dense linear algebra -- the ReLAPACK collection (2017)
  4. Van Zee, Field G.; Smith, Tyler M.: Implementing high-performance complex matrix multiplication via the 3m and 4m methods (2017)
  5. Jianyu Huang, Robert A. van de Geijn: BLISlab: A Sandbox for Optimizing GEMM (2016) arXiv
  6. Schatz, Martin D.; van de Geijn, Robert A.; Poulson, Jack: Parallel matrix multiplication: a systematic journey (2016)
  7. Herceg, M.; Jones, C. N.; Morari, M.: Dominant speed factors of active set methods for fast MPC (2015)
  8. Van Zee, Field G.; van de Geijn, Robert A.: BLIS: a framework for rapidly instantiating BLAS functionality (2015)
  9. Van Zee, Field G.; van de Geijn, Robert A.; Quintana-Ortí, Gregorio: Restructuring the tridiagonal and bidiagonal QR algorithms for performance (2014)
  10. Bientinesi, Paolo; Gunnels, John A.; Myers, Margaret E.; Quintana-Ortí, Enrique S.; Rhodes, Tyler; van de Geijn, Robert A.; van Zee, Field G.: Deriving dense linear algebra libraries (2013)
  11. Aliaga, José I.; Bientinesi, Paolo; Davidović, Davor; Di Napoli, Edoardo; Igual, Francisco D.; Quintana-Ortí, Enrique S.: Solving dense generalized eigenproblems on multi-threaded architectures (2012)
  12. Van Zee, Field G.; van de Geijn, Robert A.; Quintana-Ortí, Gregorio; Elizondo, G. Joseph: Families of algorithms for reducing a matrix to condensed form (2012)