• Elemental

  • Referenced in 22 articles [sw07035]
  • PLAPACK. With the advent of many-core architectures, which may very well take the shape...
  • LibBi

  • Referenced in 12 articles [sw19384]
  • multi-core central processing units (CPUs), many-core graphics processing units (GPUs) and distributed-memory...
  • EASEA

  • Referenced in 13 articles [sw07058]
  • exploit the massive parallelism of many-core architectures in order to optimize virtually any real...
  • SELL_C_sigma

  • Referenced in 11 articles [sw11232]
  • SIMD) units in current multi- and many-core processors should be used most efficiently...
  • DAGuE

  • Referenced in 10 articles [sw20709]
  • management of micro-tasks on distributed many-core heterogeneous architectures. Applications we consider...
  • Kokkos

  • Referenced in 6 articles [sw20455]
  • Intel Phi, or many-core CPU. The Kokkos library also provides data abstractions to adjust ... task). These are OpenMP (for many-core CPUs), Cuda (for NVIDIA GPUs), and OpenMP...
  • OP2

  • Referenced in 5 articles [sw17501]
  • based applications on multi-core and many-core architectures. OP2 is an “active” library framework ... scaling on modern multi-core and many-core processor based systems. A key feature...
  • kdtree++

  • Referenced in 7 articles [sw28526]
  • have shifted towards the multi- and many-core architectures. The graphics processing units (GPUs...
  • FastFlow

  • Referenced in 5 articles [sw15024]
  • multi-core. Programming multi-core and many-core computing systems...
  • exafmm

  • Referenced in 4 articles [sw30090]
  • Based on Dual Tree Traversal for Many-core Architectures. The present work attempts to integrate ... fastest N-body library for many-core and heterogenous architectures. Focus is placed...
  • ExaGeoStat

  • Referenced in 6 articles [sw30062]
  • exploiting advances in solution algorithms and many-core computer architectures. Using state...
  • Fastsg

  • Referenced in 5 articles [sw18350]
  • processor landscape dominated by multi-and many-core processors, simplifying programming plays a crucial role...
  • CUDA-lite

  • Referenced in 3 articles [sw13619]
  • transitioned into multi-core and many-core parallel systems. The CUDA programming environment from NVIDIA ... attempt to make programming many-core GPUs more accessible to programmers. However, there are still...
  • SpGEMM

  • Referenced in 5 articles [sw14033]
  • sparse matrix-matrix multiplication (SpGEMM) on many-core architectures, such as GPUs. SpGEMM is implemented...
  • Ocelot

  • Referenced in 3 articles [sw09713]
  • Parallel Thread eXecution ISA (PTX) to many-core processors that leverages the Low Level Virtual ... NVIDIA GPU and a many-core CPU at runtime. It has been validated against over...
  • RiTHM

  • Referenced in 4 articles [sw16439]
  • complete and exploits the GPU many-core technology to speedup and encapsulate monitoring tasks...
  • Nebo

  • Referenced in 2 articles [sw17488]
  • thread execution, multi-thread execution, and many-core (GPU-based) execution. With single-thread execution ... single-thread execution. Moreover, Nebo’s many-core execution can be over 140x faster than...
  • LUMA

  • Referenced in 2 articles [sw26402]
  • LUMA: A many-core, Fluid–Structure Interaction solver based on the Lattice-Boltzmann Method ... solver with turbulence modelling and many-core scalability as well as a wealth of input/output...
  • PRISM-PSY

  • Referenced in 3 articles [sw33601]
  • which results in significant acceleration on many-core architectures. High hardware utilisation, essential for performance...
  • GPUMLib

  • Referenced in 3 articles [sw13694]
  • Unit (GPU) is a highly parallel, many-core device with enormous computational power, especially well...