• EASEA

  • Referenced in 14 articles [sw07058]
  • science to exploit the massive parallelism of many-core architectures in order to optimize virtually ... standard CPU machines and can run in parallel over a loosely coupled heterogenous architecture (typically...
  • 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...
  • PaInleSS

  • Referenced in 8 articles [sw21967]
  • framework to build parallel SAT solvers for many-core environments. Thanks to its genericity ... provides the implementation of basics for parallel SAT solving like clause exchanges, portfolio and divide...
  • GPUMLib

  • Referenced in 3 articles [sw13694]
  • Processing Unit (GPU) is a highly parallel, many-core device with enormous computational power, especially ... problems that can be expressed as data-parallel computations. As problems become increasingly demanding, parallel...
  • Elemental

  • Referenced in 25 articles [sw07035]
  • among the best understood domains of parallel computing. Two packages, developed in the mid 1990s ... PLAPACK. With the advent of many-core architectures, which may very well take the shape...
  • CU2CL

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

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

  • Referenced in 2 articles [sw10827]
  • Quantum Chemistry Program. MPQC is the Massively Parallel Quantum Chemistry Program. It computes properties ... architectures ranging from single many-core computers to massively parallel computers. Its design is object...
  • OP2

  • Referenced in 7 articles [sw17501]
  • based applications on multi-core and many-core architectures. OP2 is an “active” library framework ... transformed into different parallel implementations for execution on different back-end hardware platforms. In this ... scaling on modern multi-core and many-core processor based systems. A key feature ... discuss the main design issues in parallelizing unstructured mesh based applications on heterogeneous platforms. These...
  • Ocelot

  • Referenced in 3 articles [sw09713]
  • binary translator from Parallel Thread eXecution ISA (PTX) to many-core processors that leverages ... NVIDIA GPU and a many-core CPU at runtime. It has been validated against over ... that are applicable only when compiling explicitly parallel applications and traditional dynamic compiler optimizations...
  • kdtree++

  • Referenced in 11 articles [sw28526]
  • performance 3D peridynamic model on graphics accelerators. Parallel processing is one of the major trends ... have shifted towards the multi- and many-core architectures. The graphics processing units (GPUs...
  • PRISM-PSY

  • Referenced in 3 articles [sw33601]
  • effective data-parallel processing, which results in significant acceleration on many-core architectures. High hardware...
  • ppOpen-HPC

  • Referenced in 1 article [sw18700]
  • ppOpen-HPC focuses on parallel computers based on many-core architectures and consists of various ... linked with these libraries, and the parallel code generated is optimized for post-peta-scale...
  • PRAgMaTIc

  • Referenced in 2 articles [sw14928]
  • PRAgMaTIc (Parallel anisotRopic Adaptive Mesh ToolkIt) provides 2D/3D anisotropic mesh adaptivity for meshes of simplexes ... multi-core and many-core nodes. PRAgMaTIc uses OpenMP for thread parallelism...
  • Nebo

  • Referenced in 3 articles [sw17488]
  • appears sequential but can be run in parallel, without editing the code. Currently Nebo supports ... thread execution, multi-thread execution, and many-core (GPU-based) execution. With single-thread execution...
  • swSpTRSV

  • Referenced in 2 articles [sw30964]
  • real-world applications. Currently, much research on parallel SpTRSV focuses on level-set construction ... layout and algorithms on an SW26010 many-core processor, which is the main building-block ... parallel level-set method. Our method also outperforms the latest methods on a KNC many ... core processor in 1856 matrices and the latest methods...
  • ExaGeoStat

  • Referenced in 6 articles [sw30062]
  • exploiting advances in solution algorithms and many-core computer architectures. Using state ... algebra libraries associated with various leading edge parallel architectures (Intel KNLs, NVIDIA GPUs, and distributed...
  • SimK

  • Referenced in 1 article [sw20524]
  • systems. Currently microprocessor architecture has switched to parallel, but almost all simulators remained at sequential ... core or many-core processors cannot be utilized. This paper presents a parallel simulator engine...
  • Fastsg

  • Referenced in 5 articles [sw18350]
  • processor landscape dominated by multi-and many-core processors, simplifying programming plays a crucial role ... processor core up to a factor of 10. Parallelization using OpenMP scales almost linearly...
  • GMiner

  • Referenced in 1 article [sw37945]
  • existing methods hinder its applicability. Although many sequential frequent itemset mining methods have been proposed ... limitation, various parallel methods using multi-core CPU, multiple machine, or many-core graphic processing ... workload skewness problem from which the existing parallel methods suffer; as a result, its performance...