• LIBXSMM

  • Referenced in 11 articles [sw23238]
  • Intel Many Integrated Core Architecture ”MIC”) using intrinsic functions, meanwhile optimized assembly code is targeting...
  • minepy

  • Referenced in 5 articles [sw23578]
  • Maximal Information-based Nonparametric Exploration (MIC and MINE family). Key features: APPROX-MIC (the original ... algorithm, DOI: 10.1126/science.1205438) and MIC_e (DOI: arXiv:1505.02213 and DOI: arXiv:1505.02214) estimators...
  • minerva

  • Referenced in 5 articles [sw10632]
  • Maximal Information-based Nonparametric Exploration statistics (MIC and MINE family...
  • UTBEST3D

  • Referenced in 4 articles [sw24815]
  • architectures, we also include Intel’s new MIC processor Xeon Phi in the evaluation. Good...
  • mics-library

  • Referenced in 1 article [sw40344]
  • mics-library: A Python package for reproducible studies on the Multiple Indicator Cluster Survey. Psycho ... research gap, the Multiple Indicator Cluster Survey (MICS) is an appropriate and comprehensive large dataset ... health and human development. We therefore introduce mics_library, a tool designed to help researchers ... using the MICS dataset by allowing data preview, organizing files and extracting relevant data...
  • coxphMIC

  • Referenced in 1 article [sw19920]
  • Biometrics). The developed methodology is named MIC which stands for ”Minimizing approximated Information Criteria ... objective function smooth. As a result, MIC is computationally fast with a superior performance ... terms of circumventing post-selection inference. The MIC method and its R implementation are introduced...
  • Semi-stencil

  • Referenced in 1 article [sw12894]
  • results on IBM POWER7-, Intel Xeon-, and MIC-based systems are presented. In a nutshell ... instance, the scalability of Semi-stencil on MIC for a certain testcase reached 93.8${ imes...
  • SoAx

  • Referenced in 1 article [sw42242]
  • than the AoS one. On Intel’s MIC co-processors the performance gap even attains ... SoAx that has optimal performance (on CPUs, MICs, and GPUs) while providing the same handiness...
  • Parray

  • Referenced in 1 article [sw12634]
  • lobal Arrays), GPU (CUDA) and manycore (MIC’s OpenMP Offload). The compiler will generate high...
  • Initition3d

  • Referenced in 1 article [sw25128]
  • node. The heterogeneous version successfully utilized the MIC (many integrated core) coprocessors to accelerate...
  • ExaML

  • Referenced in 1 article [sw29594]
  • production-level implementation for Intel MIC-based hardware platforms. Availability and implementation: The code...
  • NnmfPack

  • Referenced in 1 article [sw32956]
  • architecture (CPU), Intel Xeon Phi (Intel MIC architecture) and NVIDIA Fermi/Kepler architectures. OpenMP, CUDA...
  • NCSWT

  • Referenced in 0 articles [sw20125]
  • simulations. NCSWT uses the Model Integrated Computing (MIC) techniques to define HLA-based model constructs ... interactions between the simulators. NCSWT also uses MIC techniques to define models representing the control...
  • BCYCLIC

  • Referenced in 4 articles [sw00070]
  • A block tridiagonal matrix is factored with minimal...
  • Gmsh

  • Referenced in 783 articles [sw00366]
  • Gmsh is a 3D finite element grid generator...
  • CUDA

  • Referenced in 1336 articles [sw03258]
  • The NVIDIA® CUDA® Toolkit provides a comprehensive development...
  • TetGen

  • Referenced in 185 articles [sw04046]
  • TetGen, a Delaunay-Based Quality Tetrahedral Mesh Generator...
  • LINPACK

  • Referenced in 525 articles [sw04209]
  • LINPACK is a collection of Fortran subroutines that...
  • NumPy

  • Referenced in 568 articles [sw06294]
  • NumPy is the fundamental package for scientific computing...
  • Netgen

  • Referenced in 196 articles [sw06679]
  • NETGEN: An advancing front 2D/3D-mesh generator based on...