ID |
Date |
Author |
Subject |
Run Number |
DUT |
Beam Energy |
Rate Setting |
Particle Type |
Data |
t-Start |
t-Stop |
Duration_min |
Frontend |
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
|
51
|
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
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
|
52
|
Sat Mar 30 15:39:06 2024 |
hh, mb, ps | 1st tests | 1035 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:35:06 | 30.03.2024 15:41:33 | 6 | HV | automatic log for run 1035
All four chips enabled now
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
|
53
|
Sat Mar 30 15:51:21 2024 |
hh, mb, ps | 1st tests | 1036 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:43:53 | 30.03.2024 15:53:47 | 9 | HV | automatic log for run 1036
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
|
54
|
Sat Mar 30 15:55:32 2024 |
hh, mb, ps | 1st tests | 1037 | TJ-Monopix2 | 800 MeV | Low Flux Low | Proton | Unknown | 30.03.2024 15:54:44 | 30.03.2024 15:57:59 | 3 | HV | automatic log for run 1037
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
|
|