• Cactus

  • Referenced in 69 articles [sw04422]
  • variety of computing applications in science and engineering, including astrophysics, relativity and chemical engineering ... able to provide the latest advances in computational science, such as interchangeable parallel data distribution...
  • DarkSUSY

  • Referenced in 27 articles [sw09107]
  • matter candidates. DarkSUSY also computes a large variety of astrophysical signals from neutralino dark matter ... detailed manual will be provided with the computer package...
  • LORENE

  • Referenced in 8 articles [sw09576]
  • numerical relativity, and more generally in computational astrophysics. It provides tools to solve partial differential...
  • DistDLB

  • Referenced in 10 articles [sw01957]
  • DistDLB: improving cosmology SAMR simulations on distributed computing systems through hierarchical load balancing Cosmology SAMR ... role in the field of astrophysics. The emerging distributed computing systems provide an economic alternative...
  • Einstein Toolkit

  • Referenced in 17 articles [sw08471]
  • software for relativistic astrophysics. Our aim is to provide the core computational tools that...
  • GRHydro

  • Referenced in 4 articles [sw08469]
  • source community-driven numerical relativity and computational relativistic astrophysics code. The GRMHD extension...
  • CLBlast

  • Referenced in 1 article [sw20249]
  • demonstrates how to accelerate dense linear algebra computations using CLBlast, an open-source OpenCL BLAS ... applications (e.g. deep learning, iterative solvers, astrophysics, computational fluid dynamics, quantum chemistry). CLBlast has four...
  • HOPE

  • Referenced in 1 article [sw21688]
  • Python just-in-time compiler for astrophysical computations, Astronomy and Computing. The Python programming language ... large data sets, as is common in astrophysics and cosmology. While various frameworks have been...
  • FINESSE

  • Referenced in 8 articles [sw09199]
  • computes axisymmetric magnetohydrodynamic equilibria in poloidal elliptic flow regimes for a variety of astrophysical...
  • ENZO

  • Referenced in 11 articles [sw12438]
  • code, designed for rich, multi-physics hydrodynamic astrophysical calculations. Enzo is freely available, developed ... capable of running on computers from laptop to Top500...
  • RAM

  • Referenced in 10 articles [sw18139]
  • using adaptive mesh refinement (AMR) on parallel computers. We have implemented a characteristic-wise, finite ... address challenging open questions in relativistic astrophysics...
  • PIKAIA

  • Referenced in 9 articles [sw04744]
  • that apply basic evolutionary operators in a computational setting. We have designed a fully parallel ... preliminary estimate of the astrophysically important but experimentally uncertain rate for the $^{12}C(alpha ... successes suggest that a broad class of computationally intensive modeling applications could also benefit from...
  • MOCCT

  • Referenced in 10 articles [sw08475]
  • Magnetic fields are important components of many astrophysical systems. These systems are studied with numerical ... uses information propagated along Alfvén characteristics to compute electromagnetic forces at intermediate time levels...
  • IRMHD

  • Referenced in 3 articles [sw08878]
  • more computational effort than its explicit counterpart, whereas its range of application to astrophysical problems...
  • Semi-stencil

  • Referenced in 1 article [sw12894]
  • such as geophysics, astrophysics, etc. The typical FD solver performs stencil computations for the entire...
  • MAP

  • Referenced in 6 articles [sw11471]
  • with adaptive mesh refinement and parallelization for astrophysics. A new code, named MAP, is written ... There are several optional numerical schemes for computing the MHD part, namely, modified Mac Cormack...
  • Parsek2D

  • Referenced in 3 articles [sw18111]
  • code, called Parsek2D, for the simulation of astrophysical and space plasmas is presented. Parsek2D enables ... implicit time differen- tiation and parallel computing. An implicit formulation of the PIC algorithm removes...
  • AmrLib

  • Referenced in 2 articles [sw23293]
  • target current and next-generation massively parallel computational architectures. Sample application areas include combustion, porous ... flow, fluctuating hydrodynamics, atmospheric modeling, cosmology and astrophysics. CCSE researchers work collaboratively with application scientists...
  • ABAKO/RAPCAL

  • Referenced in 1 article [sw20547]
  • computational package ABAKO/RAPCAL. Non-local thermodynamic equilibrium (NLTE) conditions are universal in laboratory and astrophysical ... this work is presented a versatile computational package, named ABAKO/RAPCAL, to calculate the populations...
  • JPARSEC

  • Referenced in 1 article [sw26470]
  • compute ephemerides. The project started twelve years ago and soon evolved to also cover astrophysical...