• Cadabra

  • Referenced in 66 articles [sw00097]
  • designed for use in high energy physics but its rich structure and ease...
  • GiNaC

  • Referenced in 64 articles [sw01609]
  • However, it is not restricted to high energy physics applications. Its design is revolutionary...
  • PYTHIA8

  • Referenced in 99 articles [sw09347]
  • generation of high-energy collisions, comprising a coherent set of physics models for the evolution...
  • MINUIT

  • Referenced in 27 articles [sw19409]
  • MINUIT is a physics analysis tool for function minimization. The functions (so-called objective functions ... also used by people outside high energy physics (HEP). This project aims to re-implement...
  • GRID Infoware

  • Referenced in 23 articles [sw04166]
  • drug design, brain activity analysis, and high energy physics). This idea is analogous to electric...
  • WHIZARD

  • Referenced in 16 articles [sw17837]
  • SppC and other High Energy Physics Experiments. WHIZARD is a program system designed...
  • HepMC

  • Referenced in 9 articles [sw18252]
  • Monte Carlo event record for High Energy Physics. HepMC is an Object Oriented event record ... written in C++ for High Energy Physics Monte Carlo event generators. Many extensions from HEPEVT...
  • GAUDI

  • Referenced in 13 articles [sw01384]
  • development of data processing applications for High Energy Physics (HEP) experiments. The development strategy follows ... different processing environments, from the high level triggers in the on-line system...
  • Ganga

  • Referenced in 11 articles [sw10312]
  • heterogeneous resources. We give examples from High Energy Physics, demonstrating how an analysis...
  • Chameleon

  • Referenced in 8 articles [sw17690]
  • problems. Data intensive applications such as High Energy Physics and Bioinformatics require both Computational...
  • Redberry

  • Referenced in 6 articles [sw20303]
  • input notation for tensorial expressions. The high energy physics package includes tools for Feynman diagrams ... convenient Groovy-based user interface inside the high-level general purpose programming language environment. Redberry...
  • KULL

  • Referenced in 8 articles [sw18307]
  • simulation code developed to model high energy density physics applications. Kull can be steered using...
  • TMVA

  • Referenced in 5 articles [sw06821]
  • specifically designed to the needs of high-energy physics (HEP) applications, but should...
  • CAMORRA

  • Referenced in 5 articles [sw06042]
  • full tree-level matrix elements in high-energy physics. The program accepts user-defined models...
  • Rosetta

  • Referenced in 5 articles [sw28086]
  • Rosetta to be interfaced into various high-energy physics programs such as Monte Carlo event...
  • haggies

  • Referenced in 5 articles [sw12493]
  • restricted to the field of high energy physics...
  • MCdevelop

  • Referenced in 4 articles [sw09208]
  • scientific projects for precision calculations in high energy physics (HEP), which feature a wide range...
  • MC-TESTER

  • Referenced in 2 articles [sw00564]
  • Carlo predictions for particle decays in high energy physics. Theoretical predictions in high energy physics...
  • HEPMath

  • Referenced in 2 articles [sw20375]
  • HEPMath - Semi-Automatic High Energy Physics Computations in Mathematica. HEPMath is a Mathematica package which ... implementation of computational algorithms for High Energy Physics in Mathematica. Its main features are: Consistent...
  • WIRED

  • Referenced in 2 articles [sw02624]
  • framework, written in Java, to build High Energy Physics event displays that can be used ... proven to be useful to explain High Energy Physics to the general public. Both CERN...