Commit c02a35aa authored by David Emschermann's avatar David Emschermann
Browse files

Add TRD v21c by Alexandru, TOF v21c by Norbert and mCBM geometry 2021_07, refs #2215

parent 0cb3deda
/** ROOT macro to define the CBM setup sis18_mcbm
**
** @author Volker Friese <v.friese@gsi.de>
** @author David Emschermann <d.emschermann@gsi.de>
** @date 5 February 2016
**
**/
// 2020-08-17 - DE - add TRD v21a, add TOF v21c, disable MUCH v20a
// 2020-05-26 - DE - use RICH v20d which moved according to TOF v20b
// 2020-05-25 - DE - use TRD v20b with 2 modules and support frame for 2021
// 2020-05-22 - DE - use platform v20a with measured size of support table
// 2020-05-12 - DE - make mRICH v20b (without window) the new default
// 2020-03-11 - DE - prepare setup for mCBM Spring 2021 beamtime
// 2020-03-11 - DE - prepare setup for mCBM May 2020 beamtime
// 2020-03-11 - DE - prepare setup for mCBM March 2020 beamtime
//
// 2019-12-20 - FU - use the new pipe/targetbox geometry which consists of
// root files which are both passed to to CbmSetup
// 2019-11-28 - DE - move mTOF v19b +12 cm in x direction for the Nov 2019 run
// 2019-11-15 - DE - use mSTS v19b with single module in the top left of station 0
// 2019-08-15 - DE - use mCBM targetbox as pipe v19b
// 2019-08-12 - DE - use mSTS v19a
// 2019-08-08 - FU - use mMUCH v19a
// 2019-08-02 - DE - use pipe v19a with flange position at z=610 mm
// 2019-07-31 - DE - add TOF v18m=v19a geometry - provided by the TOF group
// 2019-07-31 - DE - add RICH v19a geometry - provided by the RICH group
// 2019-03-15 - DE - this is supposed to be the start version of mCBM in March 2019
// 2018-08-24 - DE - this is supposed to be the start version of mCBM in 2018
// 2018-06-27 - DE - set flipped mTOF v18j geometry as new default
// 2018-05-24 - DE - place 20deg_long setup back at 25 degrees, see issue #1078
// 2018-02-27 - DE - use mTRD v18o to fix redmine issue #1046 with tracking
// 2017-12-11 - DE - enable mBUCH v18m
// 2017-12-04 - DE - add mPSD to mCBM setup
// 2017-11-22 - DE - use TRD v17n with 22 cm spacing from CAD
// 2017-11-17 - DE - set aerogel mRICH v18d as default
// 2017-11-10 - DE - switch to mMUCH v18e with Mv2 dimensions
// 2017-11-03 - DE - add long setup, (acceptance matching +-12 degrees from mSTS)
// 2017-11-02 - DE - add common support table v18c
// 2017-11-02 - DE - include mBUCH with mTRD v18j
// 2017-10-23 - DE - use mMUCH with vertically aligned left rim
// 2017-10-18 - DE - use mTOF v18h with vertical orientation
// 2017-10-16 - DE - use 20 degree beampipe
// 2017-06-03 - DE - add RICH v18a_mcbm
// 2017-05-02 - DE - switch back to 5x5 RPC TOF
// 2017-05-02 - DE - skip MVD in the initial setup
// 2016-02-05 - VF - Replaces former sis18_mcbm_setup.C,
// now using the CbmSetup class.
// 2015-06-18 - DE - mCBM @ SIS18 setup
void setup_mcbm_beam_2021_07()
{
// ----- Geometry Tags --------------------------------------------------
TString platGeoTag = "v20a_mcbm"; // 2020 // support table
TString pipeGeoTag = "v19f_mcbm"; // pipe after target box
// TString mvdGeoTag = "v18b_mcbm"; // "v18a_mcbm";
TString stsGeoTag = "v20e_mcbm";
// TString muchGeoTag = "v20a_mcbm"; // 2 layers
// TString muchGeoTag = "v19a_mcbm"; // need 3 layers and RPC here
// TString trdGeoTag = "v21a_mcbm"; // 2021 // TRD-2D + 2x TRD modules
TString trdGeoTag = "v20b_mcbm"; // 2021 // 2x TRD modules
TString tofGeoTag = "v21c_mcbm"; // TOF quad + double stacks
// TString tofGeoTag = "v20d_mcbm"; // 2nd layer of 3x M6 modules added
TString richGeoTag = "v20d_mcbm"; // geometry provided by RICH group
TString psdGeoTag = "v20a_mcbm"; // at 25 degree, below the beampipe
// ------------------------------------------------------------------------
// ----- Magnetic field -------------------------------------------------
TString fieldTag = "v18a";
Double_t fieldZ = 40.; // field centre z position
Double_t fieldScale = 0.; // field scaling factor
// ------------------------------------------------------------------------
// ----- Create setup ---------------------------------------------------
CbmSetup* setup = CbmSetup::Instance();
if ( ! setup->IsEmpty() ) {
std::cout << "-W- setup_sis18_mcbm: overwriting existing setup"
<< setup->GetTitle() << std::endl;
setup->Clear();
}
setup->SetTitle("SIS18 - mCBM Setup");
setup->SetModule(ECbmModuleId::kPlatform, platGeoTag);
setup->SetModule(ECbmModuleId::kPipe, pipeGeoTag);
// setup->SetModule(ECbmModuleId::kMvd, mvdGeoTag); // skip mvd
setup->SetModule(ECbmModuleId::kSts, stsGeoTag);
// setup->SetModule(ECbmModuleId::kMuch, muchGeoTag);
setup->SetModule(ECbmModuleId::kTrd, trdGeoTag);
setup->SetModule(ECbmModuleId::kTof, tofGeoTag);
setup->SetModule(ECbmModuleId::kRich, richGeoTag);
setup->SetModule(ECbmModuleId::kPsd, psdGeoTag);
setup->SetField(fieldTag, fieldScale, 0., 0., fieldZ);
// ------------------------------------------------------------------------
// ----- Screen output ------------------------------------------------
setup->Print();
// ------------------------------------------------------------------------
}
#
## tof_v21c_mcbm information file
#
# created 20210817
# TOF setup
# envelope
0.00 cm start of TOF (z)
416.50 cm end of TOF (z)
# central tower position
400.00 cm center of staggered, front RPC cell at x=0
#
## trd_v21a_mcbm information file
#
# created 20210817
# envelope
0.000000 cm start of TRD (z)
88.000000 cm end of TRD (z)
# thickness
22.000000 cm per single layer (z)
# extra gaps
0.000000 0.000000 0.000000 0.000000 extra gaps in z (cm)
# generated TRD layers
1 2 3 4 planeID
# dimensions in x
-332.500000 cm to 332.500000 cm x-dimension of layer 1
-332.500000 cm to 332.500000 cm x-dimension of layer 2
-206.500000 cm to 206.500000 cm x-dimension of layer 3
-206.500000 cm to 206.500000 cm x-dimension of layer 4
# dimensions in y
-237.500000 cm to 237.500000 cm y-dimension of layer 1
-237.500000 cm to 237.500000 cm y-dimension of layer 2
-152.000000 cm to 152.000000 cm y-dimension of layer 3
-152.000000 cm to 152.000000 cm y-dimension of layer 4
# z-positions of layer front
0.000000 cm z-position of layer 1
22.000000 cm z-position of layer 2
44.000000 cm z-position of layer 3
66.000000 cm z-position of layer 4
# flags
support structure is : NOT included
radiator is : NOT included
lattice grid is : included
kapton window is : included
gas frame is : included
padplane is : included
backpanel is : included
Aluminium ledge is : included
Gibbet support is : included
Power bus bars are : NOT included
asics are : included
front-end boards are : included
GBTX readout boards are : included
# modules
mod1 mod2 mod3 mod4 mod5 mod6 mod7 mod8 mod9 mod10 total
---------------------------------------------------------------------------------
0 0 0 0 0 0 0 1 0 0 layer 1
0 0 0 0 0 0 0 1 0 0 layer 2
0 0 0 0 0 0 0 0 1 0 layer 3
0 0 0 0 0 0 0 0 0 1 layer 4
---------------------------------------------------------------------------------
0 0 0 0 0 0 0 2 1 1 4 number of modules
# febs
9s 5s 6s 18 12 8 4 3 18 18 FEBs per module
0 ultimate FEBs
0s 0s 0s 0 super FEBs
0 0 0 6 6 regular FEBs
0 0 0 0 0 0 0 6 18 18 42 number of FEBs
# asics
10 10 10 10 8 8 8 8 10 10 ASICs per FEB
90 50 60 180 96 64 32 24 180 180 ASICs per module
0 0 0 0 0 0 0 48 180 180 408 number of ASICs
# gbtx
15 10 5 18 0 10 5 3 18 18 GBTXs per module
0 0 0 0 0 0 0 6 18 18 42 number of GBTXs
555 55 5 333333 0 55 5 3 333333 333333 GBTX ROB types on module
0 0 0 0 0 0 0 0 0 0 0 number of GBTX ROB7
0 0 0 0 0 0 0 0 0 0 0 number of GBTX ROB5
0 0 0 0 0 0 0 2 6 6 14 number of GBTX ROB3
# e-links
180 100 120 360 192 128 64 48 360 360 816 e-links used
210 140 70 252 0 140 70 42 252 252 588 e-links available
- - - - - - - 114.3% 142.9% 142.9% 138.8% e-link efficiency
# channels
1440 800 960 2880 3072 2048 1024 768 2880 2880 channels per module
160 160 160 160 256 256 256 256 160 160 channels per feb
0 0 0 0 0 0 0 1536 2880 2880 7296 channels used
0s 0s 0s 0F 0 0 0 1536 2880F 2880F 13056 channels available
44.1%u 0.0%s 11.8%r channel ratio
55.9% channel efficiency
3.61 m2 total surface
3.39 m2 total active area
0.04 m3 total gas volume
4.64 cm2/ch average channel size
2155.01 ch/m2 channels per m2 active area
# gas volume position
1.6000 cm position of gas volume - layer 1
23.6000 cm position of gas volume - layer 2
45.6000 cm position of gas volume - layer 3
67.6000 cm position of gas volume - layer 4
# angles of acceptance
v: 89.46 deg, h: 89.62 deg - vertical/horizontal - layer 1
v: 84.18 deg, h: 85.83 deg - vertical/horizontal - layer 2
v: 73.09 deg, h: 77.38 deg - vertical/horizontal - layer 3
v: 65.83 deg, h: 71.72 deg - vertical/horizontal - layer 4
# inner aperture
v: 85.54 deg, h: 85.54 deg - vertical/horizontal - layer 1
v: 49.64 deg, h: 49.64 deg - vertical/horizontal - layer 2
v: 31.66 deg, h: 31.66 deg - vertical/horizontal - layer 3
v: 22.67 deg, h: 22.67 deg - vertical/horizontal - layer 4
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