HepMC - C++ Event Record for Monte Carlo Generators

Property Value
Distribution CentOS 5
Repository EPEL x86_64
Package name HepMC
Package version 2.06.09
Package release 9.el5
Package architecture x86_64
Package type rpm
Installed size 386.01 KB
Download size 150.93 KB
Official Mirror dl.fedoraproject.org
The HepMC package is an object oriented event record written in C++
for High Energy Physics Monte Carlo Generators. Many extensions from
HEPEVT, the Fortran HEP standard, are supported: the number of entries
is unlimited, spin density matrices can be stored with each vertex,
flow patterns (such as color) can be stored and traced, integers
representing random number generator states can be stored, and an
arbitrary number of event weights can be included. Particles and
vertices are kept separate in a graph structure, physically similar to
a physics event. The added information supports the modularization of
event generators. The package has been kept as simple as possible with
minimal internal/external dependencies. Event information is accessed
by means of iterators supplied with the package.


Package Version Architecture Repository
HepMC-2.06.09-9.el5.i386.rpm 2.06.09 i386 EPEL
HepMC-2.06.09-9.el5.i386.rpm 2.06.09 i386 EPEL
HepMC - - -


Name Value
/sbin/ldconfig -
libc.so.6(GLIBC_2.4)(64bit) -
libgcc_s.so.1()(64bit) -
libgcc_s.so.1(GCC_3.0)(64bit) -
libm.so.6()(64bit) -
libm.so.6(GLIBC_2.2.5)(64bit) -
libstdc++.so.6()(64bit) -
libstdc++.so.6(CXXABI_1.3)(64bit) -
libstdc++.so.6(GLIBCXX_3.4)(64bit) -
libstdc++.so.6(GLIBCXX_3.4.5)(64bit) -
rtld(GNU_HASH) -


Name Value
HepMC = 2.06.09-9.el5
libHepMC.so.4()(64bit) -
libHepMCfio.so.4()(64bit) -


Type URL
Binary Package HepMC-2.06.09-9.el5.x86_64.rpm
Source Package HepMC-2.06.09-9.el5.src.rpm

Install Howto

  1. Download the latest epel-release rpm from
  2. Install epel-release rpm:
    # rpm -Uvh epel-release*rpm
  3. Install HepMC rpm package:
    # yum install HepMC




2015-03-06 - Mattias Ellert <mattias.ellert@fysast.uu.se> - 2.06.09-9
- Increase epsilon - for i686 Fedora 22+ tests
2015-03-06 - Mattias Ellert <mattias.ellert@fysast.uu.se> - 2.06.09-8
- Do not trigger hexfloat output with gcc 5
2014-08-15 - Fedora Release Engineering <rel-eng@lists.fedoraproject.org> - 2.06.09-7
- Rebuilt for https://fedoraproject.org/wiki/Fedora_21_22_Mass_Rebuild
2014-06-06 - Fedora Release Engineering <rel-eng@lists.fedoraproject.org> - 2.06.09-6
- Rebuilt for https://fedoraproject.org/wiki/Fedora_21_Mass_Rebuild
2013-08-08 - Mattias Ellert <mattias.ellert@fysast.uu.se> - 2.06.09-5
- Use _pkgdocdir
2013-08-02 - Fedora Release Engineering <rel-eng@lists.fedoraproject.org> - 2.06.09-4
- Rebuilt for https://fedoraproject.org/wiki/Fedora_20_Mass_Rebuild
2013-06-05 - Mattias Ellert <mattias.ellert@fysast.uu.se> - 2.06.09-3
- Make doc package independent
2013-05-22 - Mattias Ellert <mattias.ellert@fysast.uu.se> - 2.06.09-2
- Add isa to dependencies
2012-11-16 - Mattias Ellert <mattias.ellert@fysast.uu.se> - 2.06.09-1
- Initial build

See Also

Package Description
HepMC-devel-2.06.09-9.el5.i386.rpm C++ Event Record for Monte Carlo Generators - development files
HepMC-devel-2.06.09-9.el5.x86_64.rpm C++ Event Record for Monte Carlo Generators - development files
HepMC-doc-2.06.09-9.el5.x86_64.rpm C++ Event Record for Monte Carlo Generators - documentation
IBSimu-1.0.4-4.el5.i386.rpm Ion beam simulator
IBSimu-1.0.4-4.el5.x86_64.rpm Ion beam simulator
IBSimu-devel-1.0.4-4.el5.i386.rpm Development files for IBSimu
IBSimu-devel-1.0.4-4.el5.x86_64.rpm Development files for IBSimu
Judy-1.0.5-1.el5.i386.rpm General purpose dynamic array
Judy-1.0.5-1.el5.x86_64.rpm General purpose dynamic array
Judy-devel-1.0.5-1.el5.i386.rpm Development libraries and headers for Judy
Judy-devel-1.0.5-1.el5.x86_64.rpm Development libraries and headers for Judy
Macaulay2-0.9.95-4.el5.x86_64.rpm System for algebraic geometry and commutative algebra
MochiKit-1.4.2-2.el5.noarch.rpm A lightweight JavaScript library
MySQL-zrm-3.0-6.el5.noarch.rpm MySQL backup manager
NLopt-2.4.2-2.el5.i386.rpm Open-Source library for nonlinear optimization