Master Switches
 
  - Process Level
- PartonLevel
- HadronLevel
Sometimes it may be convenient to omit certain aspects of the event 
generation chain. This cannot be motivated in a full-blown production 
run, but can often be convenient for own understanding and for 
debug purposes. The flags on this page allow just that. 
 
 
The event generation is subdivided into three levels: the process 
level, the parton level and the hadron level, and flags are grouped 
accordingly.Process Level
 
 
The ProcessLevel class administrates the initial step of 
the event generation, wherein the basic process is selected. Currently 
this is done either using some of the internal processes, or with 
Les Houches Accord input. 
 
 
There could not be a complete event without an initial process, so 
it would not be a normal action to switch off this step. Furthermore, 
without a process set, it is also not possible to carry out the tasks 
on the parton level. It is still possible, however, to hadronize 
a parton-level configuration provided by some external program. 
 
flag   ProcessLevel:all   
 (default = on)
If off, do not attempt to carry out any generation at all on the 
process level. For the parton level only final-state radiation 
is possible, using the Pythia::forceTimeShower(...) method. 
Do allow parton configurations stored in the event record to hadronize 
and hadrons to decay, however, as set by the HadronLevel 
switches. Further details are found 
here. 
   
 
 
For ProcessLevel:all = on one part of the event generation 
on this level may be switched off individually: 
 
flag   ProcessLevel:resonanceDecays   
 (default = on)
Master switch to allow resonance decays; on/off = true/false. 
Normal hadrons and leptons do not count as resonances, so this is 
aimed specifically towards Z^0, W^+-, t, h^0 and similar 
objects beyond the Standard Model. Do not use this option if you 
may produce coloured resonances and intend to allow hadronization, 
since currently the program would not know how to handle this. 
   
 
 
It is possible to stop the generation immediately after the basic 
process has been selected, see PartonLevel:all below. 
 
 
PartonLevel
 
 
The PartonLevel class administrates the middle step of the 
event generation, i.e. the evolution from an input (hard) process from 
ProcessLevel, containing a few partons only, to a complete 
parton-level configuration to be handed on to HadronLevel. 
This step involves the application of initial- and final-state radiation, 
multiparton interactions and the structure of beam remnants. 
 
flag   PartonLevel:all   
 (default = on)
If off then stop the generation after the hard process has been 
generated, but before the parton-level and hadron-level steps. 
The process record is filled, but the event 
one is then not. 
   
 
 
For PartonLevel:all = on some parts of the event generation 
on this level may be switched off individually: 
 
flag   PartonLevel:MPI   
 (default = on)
Master switch for multiparton interactions; on/off = true/false. 
Further options are found here. 
   
 
flag   PartonLevel:ISR   
 (default = on)
Master switch for initial-state radiation; on/off = true/false. 
Further options are found here. 
   
 
flag   PartonLevel:FSR   
 (default = on)
Master switch for final-state radiation; on/off = true/false. 
Further options are found here. 
If you leave this switch on, the following two switches allow 
more detailed control to switch off only parts of the showers. 
   
 
flag   PartonLevel:FSRinProcess   
 (default = on)
Switch for final-state radiation in association with the hard process 
itself; on/off = true/false. In addition PartonLevel:FSR 
must be on for these emissions to occur. 
   
 
flag   PartonLevel:FSRinResonances   
 (default = on)
Master switch for final-state radiation in any resonance decays 
subsequent to the hard process itself; on/off = true/false. In addition 
PartonLevel:FSR must be on for these emissions to occur. 
   
 
flag   PartonLevel:earlyResDec   
 (default = off)
If on then do resonance decays early, before beam handling including 
colour reconnection. If off then decays are done afterwards, and so 
are unaffected by colour reconnection. The early-decay option is still 
primitive, for some first studies. Eventually the choice should be 
made individually for each resonance based on lifetime (and the 
environment). 
   
 
 
Switching off all the above MPI/ISR/FSR switches is not equivalent 
to setting PartonLevel:all = off. In the former case a 
minimal skeleton of parton-level operations are carried out, such as 
tying together the scattered partons with the beam remnants into colour 
singlets, and storing this information in the event record. 
It is therefore possible to go on and hadronize the event, if desired. 
In the latter case no operations at all are carried out on the 
parton level, and therefore it is also not possible to go on to the 
hadron level. 
 
flag   PartonLevel:Remnants   
 (default = on)
Master switch for addition of beam remnants; on/off = true/false. 
Only intended for very special applications, and cannot be used to 
generate complete events. Specifically, unlike the other switches above, 
the program will complain and possibly crash unless you also set 
HadronLevel:all = off and Check:event = off. 
   
 
 
It is possible to stop the generation immediately after the parton level 
has been set up, see HadronLevel:all below. 
 
 
HadronLevel
 
 
The HadronLevel class administrates the final step of the 
event generation, wherein the partonic configuration from 
PartonLevel is hadronized, including string fragmentation 
and secondary decays. 
 
 
Most of the code in this class itself deals with subdividing the partonic 
content of the event into separate colour singlets, that can be 
treated individually by the string fragmentation machinery. When a 
junction and an antijunction are directly connected, it also breaks 
the string between the two, so that the topology can be reduced back 
to two separate one-junction systems, while still preserving the 
expected particle flow in the junction-junction string region(s). 
 
flag   HadronLevel:all   
 (default = on)
If off then stop the generation after the hard process and 
parton-level activity has been generated, but before the 
hadron-level steps. 
   
 
 
For HadronLevel:all = on some parts of the event generation 
on this level may be switched on or off individually: 
 
flag   HadronLevel:Hadronize   
 (default = on)
Master switch for hadronization; on/off = true/false. 
Further options are found here. 
   
 
flag   HadronLevel:Decay   
 (default = on)
Master switch for decays; on/off = true/false. 
Further options are found here. 
   
 
flag   HadronLevel:Rescatter   
 (default = off)
Master switch for hadronic rescattering, following the hadronization; 
on/off = true/false. 
Note: If this is on, Fragmentation:setVertices and 
HadronVertex:rapidDecays are automatically treated as being on, 
since they provide spacetime information required by rescattering. 
Consider also turning on PartonVertex:setVertex. Further options 
are found here. 
   
 
flag   HadronLevel:QED   
 (default = off)
Master switch for hadron-level QED radiation, including during hadron 
(and tau) decays. This switch only has an effect if the selected 
shower model allows for hadron-level QED radiation, see further 
documentation on the pages describing each of PYTHIA's shower models. 
Note: The current default is to have hadron-level QED 
radiation switched off, in order to avoid double-counting of emissions 
if you link to an external QED-radiation program (such as PHOTOS 
[Bar94, Dav10]), as is the norm in many collaborations. 
   
 
flag   HadronLevel:BoseEinstein   
 (default = off)
Master switch for the simulation of Bose-Einstein effects; 
on/off = true/false. Further options are found 
here. 
   
 
flag   HadronLevel:DeuteronProduction   
 (default = off)
Master switch for the production of deuterons and anti-deuterons in an 
event; on/off = true/false. Further options are found 
here.