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We cannot support all types of UNIX. Recently we prepared and tested CompHEP for several RedHat clones of Linux. Namely, they are Fedora Core 6/7 and Scientific Linux 3/4 (CERN). Old versions of CompHEP (e.g. 33.23, see the 'Downloads' page) could be installed on HP, SUN and DEC platforms.
CompHEP (v 4.5 and later) has also been tested on Mac OS 10.4.X. More information is available on the page of MacOS community.
We do not support M$ Windows, but a very old version of CompHEP, compatible with M$ Windows, is still available (see below).
No. However, you can try to use old (not supported now) version CompHEP 3.3 from here.
The installation of some versions earlier than 4.4 on 64bit lxplus.cern.ch machines, where 32bit libisajet and libmath from cernlib are found by ./configure in the directory /cern/pro/lib may require the following steps:
(0) make clean
(1) correction of CFLAGS: -Wall -DNUM_LONG -DCOMPHEP -m32 instead of -Wall -DNUM_LONG -DCOMPHEP
(2) correction of CLIBS: -L/usr/X11R6/lib instead of -L/usr/X11R6/lib64
then compile by 'make'. In versions 4.5 and later see the configure script options using ./configure БЂ“help. Configurations with gcc compiler version 4 (use gcc -dumpversion to see the version number) which does not support -lg2c, should use ./configure БЂ“with-gcc4
Use CompHEP version for gcc-4 http://comphep.sinp.msu.ru/_media/download/comphep-4.4p3-gcc411.tgz. You must correct the file F77 with respect to the name of Fortran compiler in your system. For 64-bit SUSE Linux the correct name is gfortran-4.1.
БЂ” Alexander Kryukov 08/06/2007 16:48
To fix the problem add third line (see below) at the end of configure file by the following way:
echo $CC > CC echo $CFLAGS > CFLAGS echo $CLIBS -L/usr/lib/gcc-lib/i386-redhat-linux/3.2.3/ > CLIBS
For some unknown reasons one needs to unsetup D0 RunII environment before compiling CompHEP.
Q^2 is the QCD factorization scale. A choice of Q^2 depends on a process under study. For the top pair production a proper choice of the scale is Q2=Mtop2, as confirmed by the NLO computations performed by several groups.
БЂ“ Edward Boos
Any generator uses the propagators with finite width (exact propagators or Breit-Wigner propagators) for calculation of the amplitude. Generally speaking, replacement of the chronological products by the exact propagators violates the gauge invariance and the unitary behavior of the amplitude, which is ensured by gauge cancellations (especially important for the complete tree level sets of diagrams including t-channel photons/gluons; see for details 'the bibliography' page). There are three schemes of the finite width insertion.
The user should make his choice of the scheme depending on a concrete physics process and problem.
Indeed, diagrams generator does not support drawing of diagrams with 6 particles in the final state. However, this does not affect the calculation of diagrams.
By default, the parameter MAXINOUT is restricted to 10 (2in+8out particles). You can change this parameter (see the file src/include/model.h) and recompile CompHEP by 'make' command. However, we do not guarantee correct work of the program in this case. The diagrams generator does not support 2Б†’8 images.
For decay processes the total number of particles should be strictly less then MAXINOUT value.
БЂ” Alexander Kryukov 28/06/2007 16:27
Warning! X=7.715561E-07 out of range
and so on is not a CompHEP warning. It is a warning of pdf (partonic density functions) library used by CompHEP.
When you are using proton structure functions (e.g. CTEQ, MRST, etc.) they are evaluating pdf's which are functions reconstructed using some fits of experimental data. Experimental data (mainly HERA deep inelastic scattering data) is available only in the kinematic range x>10^{-3}, where x is scailing variable (Bjorken or Feynman variable).
In your case some object with low effective mass is produced by protons s_hat=x_1 x_2 s, so the kinematic range for x is of the order of 10^{-7}. Pdf libraries are using some extrapolation based on available data at 10^{-3} to the region 10^{-7} and issue a warning on the reliability of the result. For detailed information you can address the authors of pdf.
cpyth will stop if you try to pass the events through the default interface. PYTHIA should know the particle code of a new particle. So if a particle has the standard code, correct the routine kfpart in cpyth-*.*.*/src/comphep/kfcodes.c If a particle does not have the code, you can add an artificial number. But this will not work in all cases, if PYTHIA does not know the particle.