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Commit 57478a75 authored by Eoin Clerkin's avatar Eoin Clerkin
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adds missing much geometry 

v21c which are v21a shifted to new coordinate system
Bug fixes in setup files.
PSD to psd_v20c in hadron
shifted field to origin for lmvm and jpsi
default pipe changed to v16e_1e
adds info files for subsystems
parent f29546b4
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Inline Side-by-side
Showing with 700 additions and 6 deletions
much/much_v21c_sis100_1m_jpsi.geo.info 0 → 100644
View file @ 57478a75
MUCH geometry created with create_MUCH_geometry_v21a_lmvm.C
Global Variables:
MuchCave Zin position = 125 cm
Acceptance tangent min = 0.1
Acceptance tangent max = 0.466
Absorbers
-----------
Total No. of Absorbers: 5
First abosrber is divided into two halves.
First half inserted inside the Dipole Magnet.
Second half is made of Low Density Graphite + Concrete.
Total No. of Pieces: 7
AbsPieces Position[cm] Thickness[cm] Material
--------------------------------------------------------------
1 133 16 LD Graphite
2 147 12 LD Graphite
3 168 30 Concrete
4 225 20 Iron
5 275 20 Iron
6 330 30 Iron
7 427 100 Iron_fifth
Shielding
-----------
No. of Shields: 6
Inside the Abs I, Shielding divided into two parts.
Shield No. Z_In[cm] Z_Out[cm] R_In[cm] R_Out[cm] Material
--------------------------------------------------------------
0 125 153 7.375 12.4999 Al
1 153 183 8.579 15.2999 Pb
2 215 235 12.965 21.4999 Al
3 265 285 15.515 26.4999 Al
4 315 345 18.065 31.4999 Al
5 377 477 25.00 25.00 Al
Stations
----------
No. of Stations: 4
First two stations (1,2) are made up of GEM and last two stations (3,4) are made up of RPC.
Passive material implemented in GEM modules. Ar:CO2 (70:30) is used as active gas.
12 mm thick Al plates are used for support and cooling in the GEM modules.
2 mm thick Aluminum plates are used for support in the RPC modules behind the active area. 10 mm thick Aluminium at the boundaries as the frame.
Drift and read-out PCBs (copper coated G10 plates) inserted for realistic material budget for both GEM and RPC modules.
#Station #Layers Z[cm] #Sectors ActiveLz[cm]
--------------------------------------------------------------
1 1 190 16 0.3
1 2 200 16 0.3
1 3 210 16 0.3
2 1 240 20 0.3
2 2 250 20 0.3
2 3 260 20 0.3
3 1 290 18 0.2
3 2 300 18 0.2
3 3 310 18 0.2
4 1 350 20 0.2
4 2 360 20 0.2
4 3 370 20 0.2
much/much_v21c_sis100_1m_lmvm.geo.info 0 → 100644
View file @ 57478a75
MUCH geometry created with create_MUCH_geometry_v21c_lmvm.C
Global Variables:
MuchCave Zin position = 125 cm
Acceptance tangent min = 0.1
Acceptance tangent max = 0.466
Absorbers
-----------
Total No. of Absorbers: 4
First abosrber is divided into two halves.
First half inserted inside the Dipole Magnet.
Second half is made of Low Density Graphite + Concrete.
Total No. of Pieces: 6
AbsPieces Position[cm] Thickness[cm] Material
--------------------------------------------------------------
1 133 16 LD Graphite
2 147 12 LD Graphite
3 168 30 Concrete
4 225 20 Iron
5 275 20 Iron
6 330 30 Iron
Shielding
-----------
No. of Shields: 5
Inside the Abs I, Shielding divided into two parts.
Shield No. Z_In[cm] Z_Out[cm] R_In[cm] R_Out[cm] Material
--------------------------------------------------------------
0 125 153 7.375 12.4999 Al
1 153 183 8.579 15.2999 Pb
2 215 235 12.965 21.4999 Al
3 265 285 15.515 26.4999 Al
4 315 345 18.065 31.4999 Al
Stations
----------
No. of Stations: 4
First two stations (1,2) are made up of GEM and last two stations (3,4) are made up of RPC.
Passive material implemented in GEM modules. Ar:CO2 (70:30) is used as active gas.
12 mm thick Al plates are used for support and cooling in the GEM modules.
2 mm thick Aluminum plates are used for support in the RPC modules behind the active area. 10 mm thick Aluminium at the boundaries as the frame.
Drift and read-out PCBs (copper coated G10 plates) inserted for realistic material budget for both GEM and RPC modules.
#Station #Layers Z[cm] #Sectors ActiveLz[cm]
--------------------------------------------------------------
1 1 190 16 0.3
1 2 200 16 0.3
1 3 210 16 0.3
2 1 240 20 0.3
2 2 250 20 0.3
2 3 260 20 0.3
3 1 290 18 0.2
3 2 300 18 0.2
3 3 310 18 0.2
4 1 350 20 0.2
4 2 360 20 0.2
4 3 370 20 0.2
setup/setup_sis100_electron.C
View file @ 57478a75
......@@ -44,7 +44,7 @@ void setup_sis100_electron()
// ----- Geometry Tags --------------------------------------------------
TString magnetGeoTag = "v21a";
TString pipeGeoTag = "v16c_1e";
TString pipeGeoTag = "v16e_1e";
TString mvdGeoTag = "v20c_tr";
TString stsGeoTag = "v20a";
TString richGeoTag = "v21a";
......
setup/setup_sis100_hadron.C
View file @ 57478a75
......@@ -38,19 +38,19 @@ void setup_sis100_hadron()
// ----- Geometry Tags --------------------------------------------------
TString magnetGeoTag = "v21a";
TString pipeGeoTag = "v16c_1e";
TString pipeGeoTag = "v16e_1e";
TString mvdGeoTag = "v20c_tr";
TString stsGeoTag = "v20a";
TString trdGeoTag = "v20c_1h";
TString tofGeoTag = "v20c_1h";
TString psdGeoTag = "v21a";
TString psdGeoTag = "v20c";
TString platGeoTag = "v13a";
// ------------------------------------------------------------------------
// ----- Magnetic field -------------------------------------------------
TString fieldTag = "v18a";
Double_t fieldZ = 40.; // field centre z position
Double_t fieldZ = 0.; // field centre z position
Double_t fieldScale = 1.; // field scaling factor
// ------------------------------------------------------------------------
......
setup/setup_sis100_muon_jpsi.C
View file @ 57478a75
......@@ -52,7 +52,7 @@ void setup_sis100_muon_jpsi()
// ----- Magnetic field -------------------------------------------------
TString fieldTag = "v18a";
Double_t fieldZ = 0.; // field centre z position
Double_t fieldZ = 0.; // field centre z position
Double_t fieldScale = 1.; // field scaling factor
// ------------------------------------------------------------------------
......
setup/setup_sis100_muon_lmvm.C
View file @ 57478a75
......@@ -52,7 +52,7 @@ void setup_sis100_muon_lmvm()
// ----- Magnetic field -------------------------------------------------
TString fieldTag = "v18a";
Double_t fieldZ = 40.; // field centre z position
Double_t fieldZ = 0.; // field centre z position
Double_t fieldScale = 1.; // field scaling factor
// ------------------------------------------------------------------------
......
sts/sts_v20a.geo.info 0 → 100644
View file @ 57478a75
STS geometry created with create_stsgeo_v20a.C
Summary:
This version adds passive materials imported from GDML model to the STS geometry:
* Taken from and largely correspond to mechanical CAD drawings of the detector
* Thermal insulation box:
- made out of carbon sandwitch panel (2mm carbon fiber sheet + layer of carbon foam + 2mm carbon fiber sheet)
- front window of complex shape with interface to MVD / target chamber
- back window with large aperture (2000 x 1200 mm) square cut into carbon foam
* Structural units:
- made of 2 complex shape aluminum C-Frames, 15mm thick
- placed at 25, 35, ... ,105 cm absolute Z
- contain front-end and power distribution boxes with equivalent X_0 values
Scripted geometry tweaks:
* Ladders and cables are extended towards the read-out planes having same lengths in respective rows
* Adjusted form and shape of carbon ladder structures from L-type to X-type
* Reduced verbosity of this file
Sensor arrangement is the same as in version v16g
!! Important for this version is the discrepancy from the mechanical CAD w.r.t. front wall.
The square window was replaced by a round one to avoid overlaps with present beam pipe designs, e.g. pipe_v16b_1e
Global variables:
Sensor thickness = 0.03 cm
Vertical gap in sensor chain = 0 cm
Vertical overlap of sensors = 0.27 cm
Gap in z between neighbour sensors = 0.02 cm
Horizontal overlap of sensors = 0.3 cm
Gap in z between neighbour ladders = 1 cm
Cable thickness = 0.02 cm
Beam pipe: R1 = 1.8 cm at z = 22 cm
Beam pipe: R2 = 1.8 cm at z = 50 cm
Beam pipe: R3 = 5.5 cm at z = 125 cm
Sensors:
Sensor01: size 6.2092 x 2.2000 x 0.0300, medium silicon
Sensor02: size 6.2092 x 4.2000 x 0.0300, medium silicon
Sensor03: size 6.2092 x 6.2000 x 0.0300, medium silicon
Sensor04: size 6.2092 x 12.4000 x 0.0300, medium silicon
Sensor05: size 4.0000 x 2.5000 x 0.0300, medium silicon
Sensor06: size 3.1000 x 4.2000 x 0.0300, medium silicon
Sensor07: size 1.5000 x 4.2000 x 0.0300, medium silicon
Ladders:
LadderType01: size 6.2092 x 48.0000 x 3.4260, assembly
LadderType02: size 6.2092 x 48.0000 x 3.4260, assembly
LadderType03: size 6.2092 x 64.0000 x 3.4260, assembly
LadderType04: size 6.2092 x 64.0000 x 3.4260, assembly
LadderType05: size 6.2092 x 80.0000 x 3.4260, assembly
LadderType06: size 6.2092 x 80.0000 x 3.4260, assembly
LadderType07: size 6.2092 x 92.0000 x 3.4760, assembly
LadderType08: size 6.2092 x 96.0000 x 3.4260, assembly
LadderType09: size 6.2092 x 48.0000 x 3.5260, assembly
LadderType10: size 6.2092 x 48.0000 x 3.5260, assembly
LadderType11: size 6.2092 x 48.0000 x 3.3760, assembly
LadderType12: size 6.2092 x 64.0000 x 3.5260, assembly
LadderType13: size 6.2092 x 64.0000 x 3.4760, assembly
LadderType14: size 6.2092 x 64.0000 x 3.4260, assembly
LadderType15: size 6.2092 x 64.0000 x 3.3760, assembly
LadderType16: size 6.2092 x 80.0000 x 3.5260, assembly
LadderType17: size 6.2092 x 80.0000 x 3.4760, assembly
LadderType18: size 6.2092 x 80.0000 x 3.4260, assembly
LadderType19: size 6.2092 x 80.0000 x 3.3760, assembly
LadderType20: size 6.2092 x 92.0000 x 3.5260, assembly
LadderType21: size 6.2092 x 92.0000 x 3.3260, assembly
LadderType22: size 6.2092 x 96.0000 x 3.5260, assembly
LadderType23: size 6.2092 x 96.0000 x 3.5260, assembly
LadderType24: size 6.2092 x 96.0000 x 3.4760, assembly
LadderType25: size 6.2092 x 92.0000 x 3.4260, assembly
LadderType26: size 6.2092 x 96.0000 x 3.3760, assembly
LadderType27: size 6.2092 x 92.0000 x 3.3760, assembly
Stations:
Unit00R: size 18.0276 x 48.0000 x 3.5260, assembly
Contains: LadderType10 LadderType09
Unit00L: size 18.0276 x 48.0000 x 3.5260, assembly
Contains: LadderType01 LadderType09
Position z = 30
Position z = 30
Unit01R: size 29.8460 x 48.0000 x 9.0000, assembly
Contains: LadderType09 LadderType01 LadderType10 LadderType09 LadderType02
Unit01L: size 29.8460 x 48.0000 x 9.0000, assembly
Contains: LadderType09 LadderType10 LadderType09 LadderType10 LadderType11
Position z = 40
Position z = 40
Unit02R: size 29.8460 x 64.0000 x 9.0000, assembly
Contains: LadderType11 LadderType10 LadderType09 LadderType14 LadderType12 LadderType12
Unit02L: size 29.8460 x 64.0000 x 9.0000, assembly
Contains: LadderType02 LadderType09 LadderType10 LadderType03 LadderType12 LadderType13
Position z = 50
Position z = 50
Unit03R: size 41.6644 x 64.0000 x 9.0000, assembly
Contains: LadderType13 LadderType12 LadderType03 LadderType15 LadderType13 LadderType12 LadderType04
Unit03L: size 29.8460 x 64.0000 x 9.0000, assembly
Contains: LadderType12 LadderType12 LadderType14 LadderType12 LadderType12 LadderType14
Position z = 60
Position z = 60
Unit04R: size 29.8460 x 80.0000 x 9.0000, assembly
Contains: LadderType14 LadderType12 LadderType12 LadderType18 LadderType17 LadderType16
Unit04L: size 41.6644 x 80.0000 x 9.0000, assembly
Contains: LadderType04 LadderType12 LadderType13 LadderType15 LadderType05 LadderType16 LadderType17 LadderType19
Position z = 70
Position z = 70
Unit05R: size 41.6644 x 80.0000 x 9.0000, assembly
Contains: LadderType19 LadderType17 LadderType16 LadderType05 LadderType19 LadderType17 LadderType16 LadderType06
Unit05L: size 29.8460 x 80.0000 x 9.0000, assembly
Contains: LadderType16 LadderType17 LadderType18 LadderType16 LadderType17 LadderType18
Position z = 80
Position z = 80
Unit06R: size 41.6644 x 92.0000 x 9.0000, assembly
Contains: LadderType18 LadderType17 LadderType16 LadderType21 LadderType25 LadderType20 LadderType20
Unit06L: size 41.6644 x 92.0000 x 9.0000, assembly
Contains: LadderType06 LadderType16 LadderType17 LadderType19 LadderType07 LadderType20 LadderType20 LadderType27
Position z = 90
Position z = 90
Unit07R: size 41.6644 x 96.0000 x 9.0000, assembly
Contains: LadderType27 LadderType20 LadderType20 LadderType07 LadderType24 LadderType22 LadderType22 LadderType08
Unit07L: size 41.6644 x 96.0000 x 9.0000, assembly
Contains: LadderType20 LadderType20 LadderType25 LadderType21 LadderType22 LadderType22 LadderType23 LadderType26
Position z = 100
Unit08R: size 41.6644 x 96.0000 x 3.5260, assembly
Contains: LadderType26 LadderType23 LadderType22 LadderType22
Unit08L: size 41.6644 x 96.0000 x 3.5260, assembly
Contains: LadderType08 LadderType22 LadderType22 LadderType24
Position z = 100
Importing STS passive materials from GDML file '/geometry/sts/passive/sts_passive_v19a.gdml'.
Passive assembly is translated for Z=4.68 cm downstream with respect to parent volume
sts_passive_v19a: size 234.0000 x 142.5000 x 103.8000, assembly
Contains: passive_unit0 passive_unit1 passive_unit2 passive_unit3 passive_unit4 passive_unit5 passive_unit6 passive_unit7 passive_unit8 passive_Box_Wall_Vertical passive_Box_Wall_Vertical passive_Box_Wall_Bottom passive_Box_Wall_Top passive_Box_Wall_Back_Light passive_Box_Wall_Front_Wrong
passive_unit0: size 177.5000 x 100.0000 x 5.5600, assembly
passive_unit1: size 177.5000 x 100.0000 x 9.6200, assembly
passive_unit2: size 177.5000 x 100.0000 x 9.6200, assembly
passive_unit3: size 177.5000 x 115.0000 x 9.6200, assembly
passive_unit4: size 177.5000 x 115.0000 x 9.6200, assembly
passive_unit5: size 177.5000 x 115.0000 x 9.6200, assembly
passive_unit6: size 177.5000 x 130.0000 x 9.6200, assembly
passive_unit7: size 177.5000 x 130.0000 x 9.6200, assembly
passive_unit8: size 179.0184 x 130.0000 x 5.5600, assembly
passive_Box_Wall_Vertical: size 2.0000 x 142.5000 x 103.8000, medium STSBoxCarbonFoam
passive_Box_Wall_Vertical: size 2.0000 x 142.5000 x 103.8000, medium STSBoxCarbonFoam
passive_Box_Wall_Bottom: size 230.0000 x 4.0000 x 95.4000, medium STSBoxCarbonFoam
passive_Box_Wall_Top: size 230.0000 x 4.0000 x 95.4000, medium STSBoxCarbonFoam
passive_Box_Wall_Back_Light: size 230.0000 x 142.5000 x 2.4000, assembly
passive_Box_Wall_Front_Wrong: size 230.0000 x 142.5000 x 6.0000, medium STSBoxCarbonFoam
tof/tof_v20c_1e.geo.info 0 → 100644
View file @ 57478a75
#
## tof_v20c_1e information file
#
# created 20211217
# TOF setup
# envelope
-57.00 cm start of TOF (z)
43.00 cm end of TOF (z)
# central tower position
28.00 cm center of staggered, front RPC cell at x=0
tof/tof_v20c_1h.geo.info 0 → 100644
View file @ 57478a75
#
## tof_v20c_1h information file
#
# created 20211217
# TOF setup
# envelope
-57.00 cm start of TOF (z)
43.00 cm end of TOF (z)
# central tower position
28.00 cm center of staggered, front RPC cell at x=0
tof/tof_v20c_1m.geo.info 0 → 100644
View file @ 57478a75
#
## tof_v20c_1m information file
#
# created 20211217
# TOF setup
# envelope
-77.00 cm start of TOF (z)
23.00 cm end of TOF (z)
# central tower position
8.00 cm center of staggered, front RPC cell at x=0
trd/trd_v20c_1e.geo.info 0 → 100644
View file @ 57478a75
#
## trd_v20c_1e information file
#
# created 20211213
# position
370.000000 cm z-front position of TRD in hadron setup
370.000000 cm z-front position of TRD in electron setup
450.000000 cm z-front position of TRD in muon setup
# detector thickness
284.000000 cm end of TRD (z)
# layer thickness
71.000000 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
-312.000000 cm to 312.000000 cm x-dimension of layer 1
-312.000000 cm to 312.000000 cm x-dimension of layer 2
-312.000000 cm to 312.000000 cm x-dimension of layer 3
-312.000000 cm to 312.000000 cm x-dimension of layer 4
# dimensions in y inner modules
-256.500000 cm to 256.500000 cm y-dimension of layer 1
-256.500000 cm to 256.500000 cm y-dimension of layer 2
-256.500000 cm to 256.500000 cm y-dimension of layer 3
-256.500000 cm to 256.500000 cm y-dimension of layer 4
# dimensions in y outer modules
-247.500000 cm to 247.500000 cm y-dimension of layer 1
-247.500000 cm to 247.500000 cm y-dimension of layer 2
-247.500000 cm to 247.500000 cm y-dimension of layer 3
-247.500000 cm to 247.500000 cm y-dimension of layer 4
# angles of acceptance for inner + outer modules
vi: 32.53 deg, vo: 31.61 deg, h: 37.80 deg - vertical/horizontal - layer 1
vi: 28.46 deg, vo: 27.61 deg, h: 33.40 deg - vertical/horizontal - layer 2
vi: 25.24 deg, vo: 24.46 deg, h: 29.83 deg - vertical/horizontal - layer 3
vi: 22.63 deg, vo: 21.91 deg, h: 26.89 deg - vertical/horizontal - layer 4
# inner aperture
v: 4.05 deg, h: 8.07 deg - vertical/horizontal - layer 1
v: 3.45 deg, h: 6.87 deg - vertical/horizontal - layer 2
v: 3.00 deg, h: 5.98 deg - vertical/horizontal - layer 3
v: 2.65 deg, h: 5.29 deg - vertical/horizontal - layer 4
# z-positions of layer front
0.00 cm z-position of layer 1
71.00 cm z-position of layer 2
142.00 cm z-position of layer 3
213.00 cm z-position of layer 4
# flags
support structure is : included
radiator is : included
lattice grid is : included
kapton window is : included
gas frame is : included
padplane is : included
backpanel is : included
Aluminium ledge is : included
Power bus bars are : included
asics are : included
front-end boards are : included
GBTX readout boards are : included
# modules
mod1 mod2 mod3 mod4 mod5 mod6 mod7 mod8 total
---------------------------------------------------------------------------------
10 0 24 0 8 0 12 0 layer 1
10 0 24 0 8 0 12 0 layer 2
10 0 24 0 8 0 12 0 layer 3
10 0 24 0 8 0 12 0 layer 4
---------------------------------------------------------------------------------
40 0 96 0 32 0 48 0 216 number of modules
# febs
8s 4s 2s 4 12 12 4 4 FEBs per module
0 ultimate FEBs
320s 0s 192s 512 super FEBs
0 384 0 192 0 576 regular FEBs
320 0 192 0 384 0 192 0 1088 number of FEBs
# asics
10 10 10 5 9 9 9 9 ASICs per FEB
80 40 20 20 108 108 36 36 ASICs per module
3200 0 1920 0 3456 0 1728 0 10304 number of ASICs
# gbtx
12 6 3 0 18 18 6 6 GBTXs per module
480 0 288 0 576 0 288 0 1632 number of GBTXs
3333 33 3 0 333333 333333 33 33 GBTX ROB types on module
0 0 0 0 0 0 0 0 0 number of GBTX ROB7
0 0 0 0 0 0 0 0 0 number of GBTX ROB5
160 0 96 0 192 0 96 0 544 number of GBTX ROB3
# e-links
160 80 40 40 216 216 72 72 20608 e-links used
168 84 42 0 252 252 84 84 22848 e-links available
95.2% - 95.2% - 85.7% - 85.7% - 90.2% e-link efficiency
# channels
2560 1280 640 640 3456 3456 1152 1152 channels per module
320 320 320 160 288 288 288 288 channels per feb
102400 0 61440 0 110592 0 55296 0 329728 channels used
102400s 0s 61440s 0 110592 0 55296 0 329728 channels available
0.0%u 49.7%s 50.3%r channel ratio
100.0% channel efficiency
122.59 m2 total surface
113.39 m2 total active area
1.36 m3 total gas volume
3.44 cm2/ch average channel size
2908.02 ch/m2 channels per m2 active area
# gas volume position
31.6000 cm position of gas volume - layer 1
102.6000 cm position of gas volume - layer 2
173.6000 cm position of gas volume - layer 3
244.6000 cm position of gas volume - layer 4
trd/trd_v20c_1h.geo.info 0 → 100644
View file @ 57478a75
#
## trd_v20c_1h information file
#
# created 20211217
# position
370.000000 cm z-front position of TRD in hadron setup
370.000000 cm z-front position of TRD in electron setup
450.000000 cm z-front position of TRD in muon setup
# detector thickness
284.000000 cm end of TRD (z)
# layer thickness
71.000000 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
-312.000000 cm to 312.000000 cm x-dimension of layer 1
-312.000000 cm to 312.000000 cm x-dimension of layer 2
-312.000000 cm to 312.000000 cm x-dimension of layer 3
-312.000000 cm to 312.000000 cm x-dimension of layer 4
# dimensions in y inner modules
-256.500000 cm to 256.500000 cm y-dimension of layer 1
-256.500000 cm to 256.500000 cm y-dimension of layer 2
-256.500000 cm to 256.500000 cm y-dimension of layer 3
-256.500000 cm to 256.500000 cm y-dimension of layer 4
# dimensions in y outer modules
-247.500000 cm to 247.500000 cm y-dimension of layer 1
-247.500000 cm to 247.500000 cm y-dimension of layer 2
-247.500000 cm to 247.500000 cm y-dimension of layer 3
-247.500000 cm to 247.500000 cm y-dimension of layer 4
# angles of acceptance for inner + outer modules
vi: 32.53 deg, vo: 31.61 deg, h: 37.80 deg - vertical/horizontal - layer 1
vi: 28.46 deg, vo: 27.61 deg, h: 33.40 deg - vertical/horizontal - layer 2
vi: 25.24 deg, vo: 24.46 deg, h: 29.83 deg - vertical/horizontal - layer 3
vi: 22.63 deg, vo: 21.91 deg, h: 26.89 deg - vertical/horizontal - layer 4
# inner aperture
v: 4.05 deg, h: 8.07 deg - vertical/horizontal - layer 1
v: 3.45 deg, h: 6.87 deg - vertical/horizontal - layer 2
v: 3.00 deg, h: 5.98 deg - vertical/horizontal - layer 3
v: 2.65 deg, h: 5.29 deg - vertical/horizontal - layer 4
# z-positions of layer front
0.00 cm z-position of layer 1
71.00 cm z-position of layer 2
142.00 cm z-position of layer 3
213.00 cm z-position of layer 4
# flags
support structure is : included
radiator is : included
lattice grid is : included
kapton window is : included
gas frame is : included
padplane is : included
backpanel is : included
Aluminium ledge is : included
Power bus bars are : included
asics are : included
front-end boards are : included
GBTX readout boards are : included
# modules
mod1 mod2 mod3 mod4 mod5 mod6 mod7 mod8 total
---------------------------------------------------------------------------------
10 0 24 0 8 0 12 0 layer 1
10 0 24 0 8 0 12 0 layer 2
10 0 24 0 8 0 12 0 layer 3
10 0 24 0 8 0 12 0 layer 4
---------------------------------------------------------------------------------
40 0 96 0 32 0 48 0 216 number of modules
# febs
8s 4s 2s 4 12 12 4 4 FEBs per module
0 ultimate FEBs
320s 0s 192s 512 super FEBs
0 384 0 192 0 576 regular FEBs
320 0 192 0 384 0 192 0 1088 number of FEBs
# asics
10 10 10 5 9 9 9 9 ASICs per FEB
80 40 20 20 108 108 36 36 ASICs per module
3200 0 1920 0 3456 0 1728 0 10304 number of ASICs
# gbtx
12 6 3 0 18 18 6 6 GBTXs per module
480 0 288 0 576 0 288 0 1632 number of GBTXs
3333 33 3 0 333333 333333 33 33 GBTX ROB types on module
0 0 0 0 0 0 0 0 0 number of GBTX ROB7
0 0 0 0 0 0 0 0 0 number of GBTX ROB5
160 0 96 0 192 0 96 0 544 number of GBTX ROB3
# e-links
160 80 40 40 216 216 72 72 20608 e-links used
168 84 42 0 252 252 84 84 22848 e-links available
95.2% - 95.2% - 85.7% - 85.7% - 90.2% e-link efficiency
# channels
2560 1280 640 640 3456 3456 1152 1152 channels per module
320 320 320 160 288 288 288 288 channels per feb
102400 0 61440 0 110592 0 55296 0 329728 channels used
102400s 0s 61440s 0 110592 0 55296 0 329728 channels available
0.0%u 49.7%s 50.3%r channel ratio
100.0% channel efficiency
122.59 m2 total surface
113.39 m2 total active area
1.36 m3 total gas volume
3.44 cm2/ch average channel size
2908.02 ch/m2 channels per m2 active area
# gas volume position
31.6000 cm position of gas volume - layer 1
102.6000 cm position of gas volume - layer 2
173.6000 cm position of gas volume - layer 3
244.6000 cm position of gas volume - layer 4
trd/trd_v20c_1m.geo.info 0 → 100644
View file @ 57478a75
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## trd_v20c_1m information file
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# created 20211213
# position
370.000000 cm z-front position of TRD in hadron setup