mcstas-mcresplot

Neutron ray-trace simulation - resolution function plotter

McStas is a tool for carrying out Monte Carlo ray-tracing simulations of neutron scattering instruments with high complexity and precision. The simulations can compute all aspects of the performance of instruments and can thus be used to optimize the use of existing equipment, design new instrumentation, and carry out virtual experiments for e.g. training, experimental planning or data analysis.

debian-tag2upload-keyring

OpenPGP signing key for the Debian tag2upload service

tag2upload signs source packages and git tags with this key.

mcstas-comps

Neutron ray-trace simulation - components

McStas is a tool for carrying out Monte Carlo ray-tracing simulations of neutron scattering instruments with high complexity and precision. The simulations can compute all aspects of the performance of instruments and can thus be used to optimize the use of existing equipment, design new instrumentation, and carry out virtual experiments for e.g. training, experimental planning or data analysis.

recode

Character set conversion utility

Free `recode' converts files between character sets and usages. When exact transliterations are not possible, it may get rid of the offending characters or fall back on approximations. This program recognizes or produces nearly 300 different character sets and is able to transliterate files between almost any pair. Most RFC 1345 character sets, and all `libiconv' character sets, are supported.

libsymmetrica3

Symmetrica Combinatoric C Library -- library package

Symmetrica is a library for combinatorics. It has support for the representation theory of the symmetric group and related groups, combinatorics of tableaux, symmetric functions and polynomials, Schubert polynomials, and the representation theory of Hecke algebras of type A_n.

mcxtrace-mccodelib

X-ray ray-trace simulation - Python code library

McXtrace is a tool for carrying out highly complex Monte Carlo ray-tracing simulations of X-ray beamlines to high precision. The simulations can compute all aspects of the performance of beamlines and can thus be used to optimize the use of existing equipment, design new instrumentation, and carry out virtual experiments for e.g. training, experimental planning or data analysis.