mccode 0.0~git20240608173115.707559c+ds4-1 source package in Ubuntu

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 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the McStas engine itself.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains scripts to run McStas in parallel on various
 types of clusters.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the McStas components (i.e. models for
 simulated instruments and objects).

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the documentation.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains Python libraries.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the Mantid frontend for the McStas instrument
 display.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the pyqtgraph frontend for the instrument
 display.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the WebGL frontend for the instrument
 display.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains mcdoc, a tool to display documentation for
 McStas itself and for the simulated instruments.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the graphical user interface.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the Matplotlib plotting frontend for the
 simulation results.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the pyqtgraph plotting frontend for the
 simulation results.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains the SVG plotting frontend for the
 simulation results.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains mcresplot, a front-end to plot resolution
 function.

 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.
 .
 McStas is based on a unique design where an automatic compilation
 process translates high-level textual instrument descriptions into
 efficient ISO-C code.
 .
 This package contains mcrun, the command-line tool to run the
 McStat simulations.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the McXtrace engine itself.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains scripts to run McXtrace in parallel on various
 types of clusters.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the McXtrace components (i.e. models for
 simulated beamlines and objects).

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the documentation.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains Python libraries.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the pyqtgraph frontend for the instrument
 display.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the WebGL frontend for the instrument
 display.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains mxdoc, a tool to display documentation for
 McXtrace itself and for the simulated beamlines.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the graphical user interface.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the Matplotlib plotting frontend for the
 simulation results.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the pyqtgraph plotting frontend for the
 simulation results.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains the SVG plotting frontend for the
 simulation results.

 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.
 .
 McXtrace is based on a unique design, inhereted from its
 sister McStas, where an automatic compilation process translates
 high-level textual instrument descriptions into efficient ANSI-C
 code. This design makes it simple to set up typical simulations and
 also gives essentially unlimited freedom to handle more unusual
 cases.
 .
 This package contains mxrun, the command-line tool to run the
 McXtrace simulations.