• GPUMLib

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

  • Referenced in 3 articles [sw21967]
  • build parallel SAT solvers for many-core environments. Thanks to its genericity and modularity...
  • Chameleon

  • Referenced in 3 articles [sw30065]
  • very different type of architecture: laptop, many-core nodes, CPUs-GPUs, multiple nodes. For example...
  • MR3-SMP

  • Referenced in 2 articles [sw12773]
  • specifically designed for multi-core and many-core general purpose processors, which today have effectively...
  • KARFS

  • Referenced in 1 article [sw26410]
  • reacting flows with detailed chemistry using many-core/GPU acceleration. A new direct numerical simulation ... performance portability to multi-core, many-core and GPUs, providing innovative software development while maintaining...
  • libtropicon

  • Referenced in 2 articles [sw25573]
  • will be a basic building block in many higher level algorithms for studying tropical varieties ... elimination step, and vice versa. The core algorithm is designed to be naturally parallel ... based on CUDA or ROCm/OpenCL technology. Many-core architectures such as Intel Xeon...
  • CU2CL

  • Referenced in 2 articles [sw13999]
  • OpenCL translator for multi-and many-core architectures, in Parallel and Distributed Systems...
  • GPUexplore

  • Referenced in 2 articles [sw19544]
  • GPUexplore: many-core on-the-fly state space exploration. GPUexplore is a model checker implemented...
  • MPQC

  • Referenced in 2 articles [sw10827]
  • range of architectures ranging from single many-core computers to massively parallel computers. Its design...
  • Ready

  • Referenced in 2 articles [sw23220]
  • engine, to take advantage of the many-core architectures on graphics cards and modern CPUs...
  • GAMPACK

  • Referenced in 2 articles [sw13441]
  • approaches to adapt to the many-core paradigm. The construction of the coarse matrix hierarchy...
  • NETAL

  • Referenced in 2 articles [sw06628]
  • high efficiency in parallel processing using many-core processors such as the AMD Opteron...
  • RMerge2

  • Referenced in 1 article [sw25236]
  • matrix multiplication by row merging on many-core architectures. Sparse matrix-matrix multiplication (SpMM ... fast SpMM implementation (RMerge2) for many-core architectures such as graphics processing units (GPUs) which...
  • PRAgMaTIc

  • Referenced in 1 article [sw14928]
  • clusters of multi-core and many-core nodes. PRAgMaTIc uses OpenMP for thread parallelism...
  • SimK

  • Referenced in 1 article [sw20524]
  • advantages brought by multi-core or many-core processors cannot be utilized. This paper presents...
  • TBB

  • Referenced in 1 article [sw29299]
  • three dimensions on multi-core and many-core architectures, demonstrating high scalability...
  • Muesli

  • Referenced in 1 article [sw32961]
  • multi-core CPUs as well as many-core GPUs and Xeon Phi coprocessors by implementing...
  • Barrelfish

  • Referenced in 1 article [sw28670]
  • future multi- and many-core systems. We are motivated by two closely related trends...
  • ppOpen-HPC

  • Referenced in 1 article [sw18700]
  • focuses on parallel computers based on many-core architectures and consists of various types...
  • RUMD

  • Referenced in 1 article [sw19830]
  • addresses the challenge of utilizing the many-core nature of modern GPU hardware when simulating...