| ID |
Date |
Author |
Subject |
Run Number |
DUT |
Beam Energy |
Rate Setting |
Particle Type |
Data |
t-Start |
t-Stop |
Duration_min |
Frontend |
Phantom |
Phantom thickness |
|
89
|
Sun Jun 9 00:07:17 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Wasser | 18 | TOF-Cal GSI | 145.4 MeV | Low Flux High | Proton | Good | 23:04 | 23:20 | | | | | 4 cm plastic water (in isocentre)
2 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 500 kHz on LGAD
WET measurement |
|
90
|
Sun Jun 9 00:08:07 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Wasser | 19 | TOF-Cal GSI | 194.3 MeV | Low Flux High | Proton | Good | 23:20 | 23:30 | | | | | 5 cm plastic water (in isocentre)
3.7 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 795 kHz on LGAD
WET measurement |
|
91
|
Sun Jun 9 00:10:38 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Wasser | 20 | TOF-Cal GSI | 145.4 MeV | Low Flux High | Proton | Good | 23:31 | 00:00 | | | | | 5 cm plastic water (in isocentre)
2 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 330 kHz on LGAD
14 min break with beam off (DAQ failed, had to power cycle TRB3s and all DIRICH boards-->out of synch DIRICH)
WET measurement |
|
92
|
Sun Jun 9 00:12:41 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 21 | TOF-Cal GSI | 194.3 MeV | Low Flux High | Proton | Good | 00:00 | 00:14 | | | | | 1 cm dense bone (in isocentre)
4.5 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 1.2 MHz on LGAD
WET measurement |
|
93
|
Sun Jun 9 01:22:48 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 22 | TOF-Cal GSI | 145.4 MeV | Low Flux High | Proton | Good | 00:14 | 00:23 | | | | | 1 cm dense bone (in isocentre)
2.8 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 600 kHz on LGAD
WET measurement |
|
94
|
Sun Jun 9 01:25:26 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 23 | TOF-Cal GSI | 194.3 MeV | Low Flux High | Proton | Good | 00:30 | 01:02 | | | | | 2 cm dense bone (in isocentre)
- Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 1 MHz on LGAD
interlock at 00:31 till 00:50 --> 19min break
WET measurement |
|
95
|
Sun Jun 9 01:26:56 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 24 | TOF-Cal GSI | 145.4 MeV | Low Flux High | Proton | Good | 01:02 | 01:14 | | | | | 2 cm dense bone (in isocentre)
2.1 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 315 kHz on LGAD
WET measurement |
|
96
|
Sun Jun 9 01:27:38 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 25 | TOF-Cal GSI | 194.3 MeV | Low Flux High | Proton | Good | 01:16 | 01:30 | | | | | 3 cm dense bone (in isocentre)
2.8 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 600 kHz on LGAD
WET measurement |
|
97
|
Sun Jun 9 01:32:51 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 26 | TOF-Cal GSI | 145.4 MeV | Low Flux High | Proton | Good | 01:30 | 01:45 | | | | | 3 cm dense bone (in isocentre)
1.7 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 230 kHz on LGAD
WET measurement |
|
98
|
Sun Jun 9 01:48:51 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 27 | TOF-Cal GSI | 194.3 MeV | Low Flux High | Proton | Good | 01:48 | 01:59 | | | | | 4 cm dense bone (in isocentre)
2 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 470 kHz on LGAD
WET measurement |
|
100
|
Sun Jun 9 02:02:16 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 28 | TOF-Cal GSI | 145.4 MeV | Low Flux High | Proton | Good | 02:00 | 02:14 | | | | | 4 cm dense bone (in isocentre)
1.4 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 175 kHz on LGAD
WET measurement |
|
101
|
Sun Jun 9 02:18:55 2024 |
Felix Ulrich-Pur | TOF CAL HADES LGADs WET Messung Knochen | 29 | TOF-Cal GSI | 194.3 MeV | Low Flux High | Proton | Good | 02:18 | | | | | | 5 cm dense bone (in isocentre)
1.8 Mhz on Ramon (after 5 Layers of Silicon and close to second iso centre) and 350 kHz on LGAD
WET measurement |
|
44
|
Sat Mar 30 15:02:07 2024 |
hh, mb, ps | 1st tests | 1027 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 14:52:54 | 30.03.2024 15:04:32 | 11 | HV | | | automatic log for run 1027
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xB
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
|
|
45
|
Sat Mar 30 15:05:28 2024 |
hh, mb, ps | 1st tests | 1028 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:04:47 | 30.03.2024 15:07:55 | 3 | HV | | | automatic log for run 1028
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xB
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
|
|
46
|
Sat Mar 30 15:08:33 2024 |
hh, mb, ps | 1st tests | 1029 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:08:26 | 30.03.2024 15:11:00 | 2 | HV | | | automatic log for run 1029
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xB
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
|
|
47
|
Sat Mar 30 15:18:29 2024 |
hh, mb, ps | 1st tests | 1030 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:18:21 | 30.03.2024 15:20:55 | 2 | HV | | | automatic log for run 1030
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xB
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
|
|
48
|
Sat Mar 30 15:20:37 2024 |
hh, mb, ps | 1st tests | 1031 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:21:51 | 30.03.2024 15:23:03 | 1 | HV | | | automatic log for run 1031
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xB
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
|
|
49
|
Sat Mar 30 15:22:15 2024 |
hh, mb, ps | 1st tests | 1032 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:24:02 | 30.03.2024 15:24:41 | 0 | HV | | | automatic log for run 1032
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xC
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
|
|
50
|
Sat Mar 30 15:24:44 2024 |
hh, mb, ps | 1st tests | 1033 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:25:06 | 30.03.2024 15:27:10 | 2 | HV | | | automatic log for run 1033
Comment: |
| Attachment 1: tjmonopix2.conf
|
# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xC
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
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Sat Mar 30 15:31:41 2024 |
hh, mb, ps | 1st tests | 1034 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:29:49 | 30.03.2024 15:34:08 | 4 | HV | | | automatic log for run 1034
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| Attachment 1: tjmonopix2.conf
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# example config file: Ex0.conf
[RunControl]
#pCT_STOP_RUN_AFTER_N_SECONDS = 3000000
# from the base RunControl.cc
#EUDAQ_CTRL_PRODUCER_LAST_START = my_pd0
#EUDAQ_CTRL_PRODUCER_FIRST_STOP = my_pd0
# Steer which values to display in the GUI: producerName and displayed value are seperated by a ",".
ADDITIONAL_DISPLAY_NUMBERS = "log,_SERVER"
[Producer.aida_tlu]
## GENERAL PARAMETERS
verbose= 1
skipconf= 0
confid= 20201311
delayStart= 200
## HDMI CONFIGURATION
# 4-bits to determine direction of HDMI pins
HDMI1_set= 0x7 #1= output (driven by TLU), 0 = input. bit 0=CONT, 1=SPARE, 2=TRIG, 3=BUSY for eudet, Busy needs to be 0. (0b0111 = 0x7)
HDMI2_set= 0x7
HDMI3_set= 0x7
HDMI4_set= 0x7
# Clock source (0= no clock, 1= Si5345, 2= FPGA)
HDMI1_clk = 0
HDMI2_clk = 1
HDMI3_clk = 0
HDMI4_clk = 0
# Enable/Disable clock on differential LEMO
LEMOclk = 0
## PMT POWER CONFIGURATION
PMT1_V= 0.8 #0.6363 #Szinti 4x4cm
PMT2_V= 0.8 #0.6363 #Szinti 4x4cm
PMT3_V= 0.0
PMT4_V= 0.0
## TRIGGER CONFIGURATION
trigMaskHi = 0x00000000
trigMaskLo = 0x00000008 #0x00000008 #0x00010002 #0x00000001 #8 coinc1+2
in0_STR = 0 # 0
in0_DEL = 0 # 18
in1_STR = 0 # 0
in1_DEL = 0 # 18
in2_STR = 0 # 0
in2_DEL = 0 # 0
in3_STR = 0
in3_DEL = 0
in4_STR = 0
in4_DEL = 0
in5_STR = 0 #streches pulse from 6.25ns (at 0) to 12.5ns
in5_DEL = 0
# Generate internal triggers (in Hz, 0= no triggers)
InternalTriggerFreq= 0 #4000 #00
## DISCRIMINATOR THRESHOLDS
DACThreshold0 = -0.025 #-0.025 #-0.012
DACThreshold1 = -0.012 #-0.025 #-0.012
DACThreshold2 = -0.012
DACThreshold3 = -0.12
DACThreshold4 = -0.12 #-0.0066
DACThreshold5 = -0.12
## DUT CONFIGURATION
# DUTMask Which DUTs are on
#DUTMask= 0x3 #6 bit 0= DUT1, bit 1= DUT2, bit 2= DUT3, bit 3= DUT4
DUTMask= 0xC
# DUTMaskMode Define AIDA (11) or EUDET (00) mode (2 bits per DUT)
DUTMaskMode= 0x00 #0x00
# In EUDET mode: 0 = standard trigger/busy mode, 1 = raising BUSY outside handshake vetoes triggers (2 bits per DUT, 0x3= DUT 4! -backwards!)
DUTMaskModeModifier= 0x30 #0x30 #0xC0 PS: Check what this does! 0x0 würde ich hier eingeben
# Ignore the BUSY signal for a DUT (0xF)
DUTIgnoreBusy= 0x3 #ignores triggers
DUTIgnoreShutterVeto= 0x0
EnableRecordData = 1
# EnableShutterMode: 0x0. If 1, shutter mode is enabled. If 0, shutter mode is disabled.
EnableShutterMode= 0x0
# Define which input is used for shutter source [0 - 5]
ShutterSource = 5
# 32-bit counter of clocks. Set to 0 to not use internal shutter generator.
InternalShutterInterval = 0
# 32-bit counter of clocks
ShutterOnTime = 0 #start of shutter after trigger
# 32-bit counter of clocks
ShutterVetoOffTime = 0 #time after input-trigger, until first trigger is sent to output
# 32-bit counter of clocks
ShutterOffTime = 200000000 #end of shutter after trigger #200000000 = 5s (multiples of 25ns)
## DATA COLLECTOR
EUDAQ_DC= tlu_dc
## TLU MONITOR PARAMETER
FileComment="mpw3"
PlotWindowSizeinns=40e9
MinSpillTimeOnins=4.5
MinSpilldownTimeins=0.5
ThreshEvBegin=1
ThreshEvEnd=1
ThreshPartBegin=1
ThreshPartEnd=1
[LogCollector.log]
# Currently, all LogCollectors have a hardcoded runtime name: log
# nothing
[DataCollector.tlu_dc]
EUDAQ_FW=native
# the format of data file
EUDAQ_FW_PATTERN= /home/silicon/Data/2024_03_MAUS/TLU/tlu_run$6R$X
# the name pattern of data file
# the $12D will be converted a data/time string with 12 digits.
# the $6R will be converted a run number string with 6 digits.
# the $X will be converted the suffix name of data file.
DISABLE_PRINT = 1
[Producer.tjmonopix2_AB]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_AB
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_AB]
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_AB_$12D$X
DISABLE_PRINT = 1
[Producer.tjmonopix2_CD]
# connection to the data collector
EUDAQ_DC = dc_tjmonopix2_CD
ENABLE_BDAQ_RECORD = 1
ENABLE_HITOR = 1
START_ROW = 0
STOP_ROW = 512
START_COLUMN = 448
STOP_COLUMN = 512
WAIT_FOR_FPGA = 1
[DataCollector.dc_tjmonopix2_CD]
EUDAQ_MN = monopix2_mon
EUDAQ_DATACOL_SEND_MONITOR_FRACTION = 1000
EUDAQ_FW = native
EUDAQ_FW_PATTERN = /home/silicon/Data/2024_03_MAUS/TJ-Monopix2/raw/run$3R_tjmonopix2_CD_$12D$X
DISABLE_PRINT = 1
[Producer.elog1]
#start_cmd = "./get_mpw4_configs.sh" # command (shell script) to execute before starting a run
#files2log = "peary_config.cfg, matrix_mpw4.txt" #files to attach to the auto Elog entries, EUDAQ config will be logged by default
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