# ## trd_v17g_1e information file # # created 20170524 # envelope 0.000000 cm start of TRD (z) 230.000000 cm end of TRD (z) # thickness 45.000000 cm per single layer (z) # extra gaps 0.000000 0.000000 0.000000 0.000000 5.000000 extra gaps in z (cm) # generated TRD layers 1 2 3 4 5 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 -332.500000 cm to 332.500000 cm x-dimension of layer 3 -332.500000 cm to 332.500000 cm x-dimension of layer 4 -427.500000 cm to 427.500000 cm x-dimension of layer 5 # 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 -237.500000 cm to 237.500000 cm y-dimension of layer 3 -237.500000 cm to 237.500000 cm y-dimension of layer 4 -332.500000 cm to 332.500000 cm y-dimension of layer 5 # z-positions of layer front 0.000000 cm z-position of layer 1 45.000000 cm z-position of layer 2 90.000000 cm z-position of layer 3 135.000000 cm z-position of layer 4 185.000000 cm z-position of layer 5 # flags support structure is : NOT 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 --------------------------------------------------------------------------------- 8 6 10 0 0 6 8 12 layer 1 8 6 10 0 0 6 8 12 layer 2 8 6 10 0 0 6 8 12 layer 3 8 6 10 0 0 6 8 12 layer 4 8 6 10 0 0 6 12 36 layer 5 --------------------------------------------------------------------------------- 40 30 50 0 0 30 44 84 278 number of modules # febs 8s 4s 2s 4 12 9 6 3 FEBs per module 0 ultimate FEBs 320s 120s 100s 540 super FEBs 0 0 270 264 252 786 regular FEBs 320 120 100 0 0 270 264 252 1326 number of FEBs # asics 10 10 10 5 8 7 7 7 ASICs per FEB 80 40 20 20 96 63 42 21 ASICs per module 3200 1200 1000 0 0 1890 1848 1764 10902 number of ASICs # gbtx 12 6 3 0 0 9 6 3 GBTXs per module 480 180 150 0 0 270 264 252 1596 number of GBTXs 3333 33 3 0 0 333 33 3 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 60 50 0 0 90 88 84 532 number of GBTX ROB3 # e-links 160 80 40 40 192 126 84 42 21804 e-links used 168 84 42 0 0 126 84 42 22344 e-links available 95.2% 95.2% 95.2% - - 100.0% 100.0% 100.0% 97.6% e-link efficiency # channels 2560 1280 640 640 3072 2016 1344 672 channels per module 320 320 320 160 256 224 224 224 channels per feb 102400 38400 32000 0 0 60480 59136 56448 348864 channels used 102400s 38400s 32000s 0 0 60480 59136 56448 348864 channels available 0.0%u 49.5%s 50.5%r channel ratio 100.0% channel efficiency 181.58 m2 total surface 168.72 m2 total active area 2.02 m3 total gas volume 4.84 cm2/ch average channel size 2067.67 ch/m2 channels per m2 active area # gas volume position 31.6000 cm position of gas volume - layer 1 76.6000 cm position of gas volume - layer 2 121.6000 cm position of gas volume - layer 3 166.6000 cm position of gas volume - layer 4 216.6000 cm position of gas volume - layer 5 # angles of acceptance v: 82.27 deg, h: 84.47 deg - vertical/horizontal - layer 1 v: 71.99 deg, h: 76.93 deg - vertical/horizontal - layer 2 v: 62.77 deg, h: 69.82 deg - vertical/horizontal - layer 3 v: 54.85 deg, h: 63.30 deg - vertical/horizontal - layer 4 v: 56.84 deg, h: 63.06 deg - vertical/horizontal - layer 5 # inner aperture v: 41.49 deg, h: 41.49 deg - vertical/horizontal - layer 1 v: 20.26 deg, h: 20.26 deg - vertical/horizontal - layer 2 v: 13.13 deg, h: 13.13 deg - vertical/horizontal - layer 3 v: 9.67 deg, h: 9.67 deg - vertical/horizontal - layer 4 v: 7.47 deg, h: 7.47 deg - vertical/horizontal - layer 5