Project

General

Profile

Documentation of libsbsdig » History » Version 108

Eric Fuchey, 05/25/2022 11:15 AM

1 1 Eric Fuchey
h1. Documentation of libsbsdig
2
3 70 Eric Fuchey
{{toc}}
4
5 36 Eric Fuchey
This page concerns the new version of libsbsdig which is currently being developped. The documentation for the old version of libsbsdig has been saved at:
6
https://redmine.jlab.org/projects/sbs-software/wiki/Old_Doc_libsbsdig
7
8 1 Eric Fuchey
h2. Overview
9
10 108 Eric Fuchey
This page is maintained by the UConn group (Eric Fuchey + Andrew Puckett). As of February 14, 2020 is specific to the *sbsdig_lw* branch of libsbsdig on github.
11
As of April 2022, those instructions also apply to the master branch of libsbsdig on github.
12 1 Eric Fuchey
13
h2. Purpose
14
15 52 Eric Fuchey
This page documents the libsbsdig code, which purpose is to process the Monte Carlo simulations of the SBS experiments produced by G4SBS [https://hallaweb.jlab.org/wiki/index.php/Documentation_of_g4sbs] to produce ADCs or TDCs.
16 37 Eric Fuchey
It is a standalone program which can run with a limited number of outputs (see section on usage).
17 52 Eric Fuchey
These produce files which can be analyzed with SBS-offline [https://hallaweb.jlab.org/wiki/index.php/Documentation_of_SBS-offline].
18 1 Eric Fuchey
19
h2. Getting the code and building the program
20
21
h3. Prerequisites
22
23 54 Eric Fuchey
* Working ROOT [https://root.cern.ch/drupal/] installation. ROOT 6 is strongly recommended.
24
* Working G4SBS [https://hallaweb.jlab.org/wiki/index.php/Documentation_of_g4sbs] installation.
25 1 Eric Fuchey
26
h3. Downloading the repository
27
28 104 Eric Fuchey
h4. for simple users
29
30 1 Eric Fuchey
The code is hosted on a github repository owned by JLab. To clone via ssh (preferred method on JLab batch farm), do: 
31 5 Eric Fuchey
32 1 Eric Fuchey
bq. git clone git@github.com:JeffersonLab/libsbsdig.git
33
34
For this method to work, the ssh public key on the machine where you want to get the code must be added to your github account (see [https://help.github.com/articles/generating-ssh-keys/ Guide] to generating ssh keys and adding to your github.com account.)
35
36 108 Eric Fuchey
Cloning the repository defaults to the "master" branch. -_As of August, 18th, 2020, the master branch still contains the old version of the code_.-
37
As of April, 25th, 2022, the most up-to-date version of the code and the databases is located on the *master* branch.
38
-*Beware that the current version of libsbsdig is not on the "master" branch, but on the "sbsdig_lw".*-
39 71 Eric Fuchey
40 104 Eric Fuchey
* Have an individual github account.
41
* On github.com: Fork the JeffersonLab libsbsdig to your account. Setup to “watch” Jlab libsbsdig
42
* git clone git@github.com:GithubUserName/libsbsdig.git (This is ssh access). 
43
** This will be the “origin” remote repo;
44
** Create your own branch: git checkout –b NewBranchName
45
* git remote –add upstream git@github.com:JeffersonLab/libsbsdig.git
46
** This will be the “upstream” remote repo
47 1 Eric Fuchey
* You can pull ( or fetch/merge) changes from the upstream (Jefferson Lab) repo.
48
* You can push commits in your branch to the origin (Personal Github) repo and then make pull requests.
49 104 Eric Fuchey
50 108 Eric Fuchey
The most up-to-date version of the code is now available on the master branch.
51
-
52 71 Eric Fuchey
To obtain the new version of the code currently being developped on the "sbsdig_lw" branch, do:
53 36 Eric Fuchey
54 108 Eric Fuchey
bq. git checkout sbsdig_lw-
55 1 Eric Fuchey
56
h3. Building and installing the library
57
58 92 Eric Fuchey
Create a "build" directory that is parallel to the "libsbsdig" source directory (this is not strictly required, but the build directory must be separate from the "libsbsdig" directory in any case). 
59 2 Eric Fuchey
You also need to have setup an installation path e.g. /path/to/libsbsdig-install
60 93 Eric Fuchey
For instance, you can create it parallel to your libsbsdig directory (with the mkdir command), even though it is not strictly required
61
62 2 Eric Fuchey
*NB*: similarly to the build directory, the /path/to/libsbsdig-install directory shall '''not''' be the same as the source directory!
63
_The following instructions assume that "build" is parallel to "libsbsdig":_
64 9 Eric Fuchey
If successful, the libsbsdig library and several other files and folders will be created in the "build" and the "install" directory.
65 1 Eric Fuchey
66 2 Eric Fuchey
To build and install, the procedure needs to be completed. From scratch:
67
68
bq. mkdir build
69
cd build
70
cmake -DCMAKE_INSTALL_PREFIX=/path/to/libsbsdig-install ../libsbsdig
71
make install
72 1 Eric Fuchey
73 3 Eric Fuchey
Then, the following line should be added in the OS login configuration file to take advantage of this functionality:
74 91 Eric Fuchey
* source /path/to/libsbsdig-install/bin/sbsdigenv.sh (or source /path/to/libsbsdig-install/bin/sbsdigenv.csh on the batch farm)
75 1 Eric Fuchey
76 13 Eric Fuchey
h2. How to use the digitization library
77 1 Eric Fuchey
78 37 Eric Fuchey
When sbsdig is installed in your machine, you can run the program using up to 4 arguments:
79 1 Eric Fuchey
80 98 Eric Fuchey
bq. sbsdig db_gmn_conf.dat gmn13.5_elastic_ex.txt 100000
81 33 Eric Fuchey
82 1 Eric Fuchey
These arguments have to come in this sequence, and while not all arguments are mandatory to provide, one cannot skip an argument unless they want to skip all following arguments.
83 78 Eric Fuchey
*The first argument is a database containing the list of detectors to digitize, and the parameters for the digitization. An example of such parameters is attached (db_gmn_conf.dat)
84
*The second argument is a list of "signal" files to digitize. It is mandatory to provide. An example is provided in the files attached.
85 105 Eric Fuchey
This file contains a list of input files for the program to run on. Hence, it has to contain g4sbs files that you have permission to modify. 
86
This file may also optionally contain the input for background superimposition. Input has to be of the form e.g. 
87 107 Eric Fuchey
88 106 Eric Fuchey
bq. gmn13.5_beambkgdhistos.root 80.0 1.0 0
89 107 Eric Fuchey
90 105 Eric Fuchey
with: 1st parameter name of the file where the histograms are stored; 2nd parameter: time window (in ns) on which the background has been integrated; 3rd parameter: fraction of background wrt nominal luminosity we want to add; 4th is a flag to switch on or off the digitization of the PMT detectors background.
91
*The third argument is the number of process. It has a default value of "-1" (=2^64-1) so it can be left unprovided.
92 25 Eric Fuchey
93 79 Eric Fuchey
h2. Input files documentation
94
95 80 Eric Fuchey
h3. Configuration file
96 1 Eric Fuchey
97 81 Eric Fuchey
This part describes the expected parameters for the configuration file (first argument for sbsdig). 
98
These parameters are presented as follows: name (expected type): nature of the 
99 1 Eric Fuchey
100 81 Eric Fuchey
* Rseed (int): seed for random number generator
101
* TriggerJitter (float): global trigger jitter for all detectors in ns
102 1 Eric Fuchey
103 81 Eric Fuchey
* detectors_list (strings, may take several arguments): list of detectors to digitize
104
Currently implemented:
105
hcal (hadron calorimeter, "pmt" type detector)
106
bbps (Big Bite calorimeter preshower, "pmt" type detector)
107
bbsh (Big Bite calorimeter shower, "pmt" type detector)
108
grinch (BigBite GRINCH cherenkov, "pmt" type detector)
109
bbhodo (BigBite timing hodoscope, "pmt" type detector)
110 1 Eric Fuchey
bbgem (BigBite GEM tracker, "gem" type detector)
111 96 Eric Fuchey
ecal (GEp electromagnetic calorimeter, "pmt" type detector)
112
cdet (coordinate detector for GEp electron arm, "pmt" type detector)
113
ft (GEp front tracker, "gem" type detector)
114
fpp1 (GEp focal plane polarimeter 1, "gem" type detector)
115
fpp2 (GEp focal plane polarimeter 2, "gem" type detector)
116 89 Eric Fuchey
117
GEnRP detectors being added...
118 79 Eric Fuchey
119 88 Eric Fuchey
h4. Parameters for "pmt" type detector (name "det")
120 83 Eric Fuchey
121 88 Eric Fuchey
* NChan_det (int) number of PMTs
122
* gatewidth_det (float) size of the data acquisition window in ns 
123
* gain_det (float) PMT gain
124
* ped_det (float) channel pedestal mean
125
* pedsigma_det (channel)  channel pedestal sigma
126
* trigoffset_det (float) trigger offset to have the signal centered properly around zero
127
* ADCconv_det (float) fC/ADC channels conversion factor
128
* ADCbits_det (int) number of bits to store the ADC value
129
* TDCconv_det (float) ns/TDC channels conversion factor
130
* TDCbits_det (int) number of bits to store the TDC value
131
* sigmapulse_det (float) full width half max of PMT pulse
132 84 Eric Fuchey
133 86 Eric Fuchey
h4. Parameters for "gem" type detector (of name "detgem")
134 1 Eric Fuchey
135 97 Eric Fuchey
* NPlanes_detgem (int): number of GEM modules x number of readout planes (usually 2) included in the tracker;
136 1 Eric Fuchey
* gatewidth_detgem (float): size data acquisition window for the in ns;
137 97 Eric Fuchey
* nlayers_detgem (int): number of GEM layers (ensemble of GEM modules at a same z)
138
* detgem_layer_z (array of floats): z value of each layer (should match number of layers); 
139 95 Eric Fuchey
* layer_detgem (int): layer to which the plane/module/readout belongs; _array needs to be same size as NPlanes_detgem_
140 90 Eric Fuchey
* nstrips_detgem (array of ints): number of strips for each plane/module/readout; _array needs to be same size as NPlanes_detgem_
141
* offset_detgem (array of floats): geometrical offset in transport coordinate for each plane/module in meters (alternatively x, y); _array needs to be same size as NPlanes_detgem_
142
* RO_angle_detgem (array of floats): angle of readout in degrees, with respect to transport coordinate x; _array needs to be same size as NPlanes_detgem_
143
* triggeroffset_detgem (array of floats): trigger offsets for all planes in ns _array needs to equal to NPlanes_detgem/2_
144
* ZsupThr_detgem (float): zero suppression threshold for GEMs in ADC channels;
145
* commonmode_array_detgem (float or array of floats) "common mode" (APV pedestal) value/array for BBGEMs in ADC channels; one can provide only one value which will be used for all strips or an array of values for a more realistic simulation
146 82 Eric Fuchey
147 1 Eric Fuchey
h2. Root output documentation
148 39 Eric Fuchey
149
The new digitization library will expand the TTree object from the input file to add ADC and TDC values.
150 55 Eric Fuchey
The input tree structure from G4SBS has already been described in detail in the G4SBS documentation [https://hallaweb.jlab.org/wiki/index.php/Documentation_of_g4sbs#ROOT_Tree_Structure].
151 56 Eric Fuchey
The basic idea is that for each detector in the input tree, a set of branches will be added.
152
153
There are several types of detectors in G4SBS (GEM, CAL, RICH), but there is not always a defined extension for a G4SBS detector type.
154
(NB: I'm voluntarilly omitting ECAL, 
155
For the purpose of the digitization, it is more convenient to define the following types of detectors:
156
* GEM: GEM trackers. Corresponds unambiguously to GEM detector type in G4SBS. Read out by MPD (sampling ADC) modules.
157
* Cher: Cherenkov detectors (example: GRINCH). Corresponds unambiguously to RICH detector type in G4SBS. Read out by TDC modules (with optional ADCs).
158
* Scint: Scintillator timing detectors (example: Timing Hodoscope). Corresponds to CAL detector type in G4SBS. Read out by TDC modules (with optional ADCs).
159
* Cal: Calorimeter (example: BBPS, BBSH). Corresponds to CAL detector type in G4SBS. Read out by ADC modules.
160
* HCal: Hadron Calorimeter. Corresponds to CAL detector type in G4SBS. Read out by FADC (sampling ADC) modules with TDCs.
161 57 Eric Fuchey
162 99 Eric Fuchey
h4. Data structure extension for "Cal" detector types:
163 57 Eric Fuchey
164
* nchan (int): number of channels (firing?)
165 66 Eric Fuchey
* chan (std::vector<int>) channel number
166 57 Eric Fuchey
* adc (std::vector<int>) unencoded pedestal subtracted ADC value
167
168 100 Eric Fuchey
h4. Data structure extension for "Scint", "Cher" detector types:
169 57 Eric Fuchey
170
* nchan (int): number of channels (firing?)
171 66 Eric Fuchey
* chan (std::vector<int>) channel number
172 57 Eric Fuchey
* adc (std::vector<int>) unencoded pedestal subtracted ADC value
173
* tdc_l (std::vector<int>) unencoded leading TDC value
174
* tdc_t (std::vector<int>) unencoded trailing TDC value
175
176 101 Eric Fuchey
h4. Data structure extension for "FADC" (HCal) detector types:
177 57 Eric Fuchey
178 67 Eric Fuchey
* nchan (int): number of channels (firing?)
179 102 Eric Fuchey
* chan (std::vector<int>) channel number
180 101 Eric Fuchey
* samp (std::vector<int>) sample number
181
* adc (std::vector<int>) unencoded pedestal subtracted ADC values for individual samples 
182 1 Eric Fuchey
* tdc (std::vector<int>) unencoded TDC value (optional: only for HCal at the moment)
183 100 Eric Fuchey
184 1 Eric Fuchey
h4. Data structure extension for "GEMs" detector types:
185
186 79 Eric Fuchey
* nstrips (int) number of strips (firing?)
187 66 Eric Fuchey
* module (std::vector<int>) module number
188 103 Eric Fuchey
* strips (std::vector<int>) strip number
189 1 Eric Fuchey
* samp (std::vector<int>) sample number
190 104 Eric Fuchey
* adc (std::vector<int>) unencoded pedestal subtracted ADC values for individual samples