Package madgraph :: Package interface :: Module tutorial_text_madloop
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Module tutorial_text_madloop

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Variables [hide private]
  tutorial_MadLoop = '\nYou have entered tutorial mode. This wil...
  tutorial = '\nYou have entered tutorial mode. This will introd...
  generate = '\nYou have just generated a new process.\nYou can ...
  display_processes = '\nYou have seen a list of the already def...
  display_diagrams = '\nYou have displayed the diagrams.\nNotice...
  add_process = '\nYou have added a process to your process list...
  output = '\nIf you are following the tutorial, a directory MY_...
  launch = '\nYou just launched the MadLoop standalone evalutati...
  check = '\nYou have seen the results for the various consisten...
  check_profile = '\nYou have seen detailed information about th...
  __package__ = None
hash(x)
Variables Details [hide private]

tutorial_MadLoop

Value:
'''
You have entered tutorial mode. This will introduce you to the main
syntax options for MadLoop which are mostly similar to the MadGraph5_a\
MC@NLO one. 
If you have not done so already, please follow MadGraph5_aMC@NLO tutor\
ial before 
this one.  

...

tutorial

Value:
'''
You have entered tutorial mode. This will introduce you to the main
syntax options for MadLoop which are mostly similar to the MadGraph5_a\
MC@NLO one. 
If you have not done so already, please follow MadGraph5_aMC@NLO tutor\
ial before 
this one.  

...

generate

Value:
'''
You have just generated a new process.
You can find more information on supported syntax by using:
MG5_aMC>help generate
To list all defined processes, type
MG5_aMC>display processes

You can display a pictorial representation of the diagrams with 
...

display_processes

Value:
'''
You have seen a list of the already defined processes.

At this stage you can export your processes to different formats. 
To create a MadLoop standalone output for these, simply type:

MG5_aMC>output MY_FIRST_MADLOOP_RUN
'''

display_diagrams

Value:
'''
You have displayed the diagrams.
Notice you can add the \'born\' or \'loop\' option to this command to \
specify the
class of diagrams to be displayed.

At this stage you can export your processes to different formats. 
To create a MadLoop standalone output for these, simply type:
...

add_process

Value:
'''
You have added a process to your process list.

At this stage you can export your processes.
For this, simply type

MG5_aMC>output MY_FIRST_MADLOOP_RUN
'''

output

Value:
'''
If you are following the tutorial, a directory MY_FIRST_MADLOOP_RUN ha\
s
been created under your MadGraph5_aMC@NLO installation directory.

The code for the evaluation of the squared loop matrix element is in 
\'SubProcesses/P0_<shell_proc_name>/\'. There, you can compile and edi\
t 
...

launch

Value:
'''
You just launched the MadLoop standalone evalutation of the squared lo\
op matrix
element for (a/many) specific process(es) for a random Phase-Space poi\
nt.
The two processes proposed in this tutorial were g g > d d~ and e+ e- \
> d d~.
You can check that you get the right double pole normalized with respe\
...

check

Value:
'''
You have seen the results for the various consistency checks performed\
 on the
MadGraph5_aMC@NLO loop computation.
You can now use the check command to obtain a full profiling of a give\
n process
including loop contributions.
Simply type:
...

check_profile

Value:
'''
You have seen detailed information about the stability, timings and co\
de size
of a given process including loop.
Keep in mind that these check functionalities are only available for M\
adLoop
standalone runs.

...