• NetworKit

  • Referenced in 13 articles [sw35938]
  • algorithms, many of them parallel to utilize multicore architectures. These are meant to compute standard...
  • SCASY

  • Referenced in 12 articles [sw03251]
  • paradigm, and locally on shared memory or multicore nodes as part of the distributed memory...
  • StochKit2

  • Referenced in 12 articles [sw14081]
  • properties, event handling, and automatic parallelism on multicore architectures. The underlying structure of the code...
  • BatchJobs

  • Referenced in 12 articles [sw15388]
  • PBS/Torque, LSF, SLURM and Sun Grid Engine. Multicore and SSH systems are also supported...
  • FE-gMG

  • Referenced in 8 articles [sw10365]
  • unstructured grids. We augment our GPU- and multicore-oriented implementation technique based on cascades ... solver can outperform a simple (multicore-) CPU-based multigrid by a total factor of over...
  • future

  • Referenced in 11 articles [sw15765]
  • synchronous ”lazy” and ”eager” futures, and asynchronous ”multicore”, ”multisession” and ad hoc ”cluster” futures. Globals...
  • doMC

  • Referenced in 7 articles [sw08041]
  • doMC: Foreach parallel adaptor for the multicore package. Provides a parallel backend for the %dopar ... function using the multicore functionality of the parallel package...
  • SA-cluster

  • Referenced in 10 articles [sw06867]
  • design parallel matrix computation techniques on a multicore architecture. Experimental results demonstrate that Inc-Cluster...
  • Pochoir

  • Referenced in 10 articles [sw25851]
  • time system for implementing stencil computations on multicore processors. A stencil defines the value...
  • TLRW

  • Referenced in 5 articles [sw37682]
  • algorithm intended for the single-chip multicore systems that are quickly taking over a large ... running on a 64-way single-chip multicore machine, TLRW delivers surprisingly good performance (competitive ... question of whether on single-chip multicore machines, read-write lock-based STMs...
  • recsy

  • Referenced in 8 articles [sw04139]
  • paradigm, and locally on shared memory or multicore nodes as part of the distributed memory...
  • PATUS

  • Referenced in 8 articles [sw12601]
  • multi- and many core processors, such as multicore CPUs and graphics processing units, which makes...
  • PALLOC

  • Referenced in 8 articles [sw20960]
  • minimize memory performance unpredictability in multicore systems by eliminating bank sharing among applications executing...
  • CertiKOS

  • Referenced in 8 articles [sw21503]
  • assembly and runs on stock x86 multicore machines. To our knowledge, this is the first...
  • Blaise

  • Referenced in 8 articles [sw29867]
  • added, such as automatic parallelization for multicore processors and computing clusters, and inference schemes based...
  • SAMGp

  • Referenced in 5 articles [sw13143]
  • verfügbar: SAMG, OpenMP parallel - ideal für heutige Multicore-Rechner; SAMGp, MPI/OpenMP hybrid parallel - SAMG für ... Multicore-Cluster...
  • McPAT

  • Referenced in 5 articles [sw27655]
  • power, area, and timing modeling framework for multicore and manycore architectures. This paper introduces McPAT ... that supports comprehensive design space exploration for multicore and manycore processor configurations ranging from 90nm...
  • GPU Quicksort

  • Referenced in 7 articles [sw12707]
  • efficient quicksort algorithm suitable for highly parallel multicore graphics processors. Quicksort has previously been considered...
  • SWARM

  • Referenced in 4 articles [sw14938]
  • radical change in commodity microprocessor architecture to multicore designs. Dual and quad-core processors ... SWARM (SoftWare and Algorithms for Running on Multicore) has been introduced as an open source ... library of primitives that fully exploit the multicore processors. SWARM is built on POSIX threads...
  • BEAGLE

  • Referenced in 6 articles [sw12586]
  • related processor supplementary instruction sets, and multicore CPUs via OpenMP. To demonstrate the advantages...