CENF Web>RDProjects>DUNEProtSP>DUNEProtSPSubprojects>DUNEProtSPDAQ>ArtdaqBasicOp (2019-12-02, JohnChristianFreeman)

Dec-1-2019: Attention: part of this section of the TWiki used to be instructions for running the DAQ by directly controlling DAQInterface from the command line. However, this is highly discouraged when at least one other partition is already in use since collision avoidance needs to be done directly by the user through editing the boot file; furthermore, the maturation of the Run Control means that it's almost always unnecessary to use DAQInterface in this manner. If you wish control DAQInterface directly, please contact John Freeman on Slack at jcfreeman2

Changing and adding configurations
- Default Configurations
- Deprecated Configurations

Changing and adding configurations

The instructions for changing the FHiCL parameters via basic text editing can be found at TextConfigEditorP1.

Default Configurations

Beam and Cosmics Configurations

Configuration Name	Description	Comments
np04_PM_noprescale_00001	Same as np04_CRT_noprescale_00023, but without CRT trigger
PD_telescope_00001	Same as np04_PM_noprescale_00001 but without CRT trigger
np04_CRT_noprescale_00023	Equivalent to np04_CRT_noprescale_00012 -> for cosmics run with 3ms readout window - Also with event related metrics enabled
np04_CRT_noprescale_HVtrigger_00002	Equivalent to np04_CRT_noprescale_00022 -> with HV trigger, 7.5ms readout window and the trigger is centered in this 7.5ms - Also with event related metrics
np04_CRT_noprescale_00004	Configuration for cosmics. No prescaling, i.e. ~10 Hz. This config series now includes the HV and PurMon triggers.	This configuration should only be used with the dune-artdaq-March2019 software area (or ones that are based on it). It has several changes beyond np04_CRT_noprescale_00003 independent of the trigger changes, several of which are critical for the new software release.
np04_CRT_noprescale_00003	Configuration for cosmics. No prescaling, i.e. ~10 Hz	wib402 readback error on config ignored.EBs publish a single token at a time.
np04_HV_PurMon_CRT_noprescale_00001	Same as np04_CRT_noprescale_00003, but including also triggers on the HV power supply and purity monitor inputs.
np04_HV_PurMon_noCRT_noprescale_00001	Same as np04_HV_PurMon_CRT_noprescale_00001, but excluding the CRT trigger.
np04_WibsReal_Ssps_CRT_prescale3_00003	Configuration for accepting through-going cosmic trigger	wib402 readback error on config ignored
np04_WibsReal_Ssps_BeamTrig_CRT_00005	Configuration for accepting all beam triggers and off-spill through-going cosmic trigger	wib402 readback error on config ignored
np04_WibsReal_Ssps_BeamE_CRT_00003	Configuration for accepting electron-only beam triggers and off-spill through-going cosmic trigger	Same as np04_WibsReal_Ssps_BeamE_CRT_00002 but with small update to CRT gain constants.
np04_WibsReal_Ssps_BeamE_CRT_00002	Configuration for accepting electron-only beam triggers and off-spill through-going cosmic trigger	The cosmic trigger uses a 60 ns coincidence window and a prescale of 5 (expecting 2Hz of triggers). The electron condition is obtained by requiring only a hit on the low pressure Cherenkov (C716) - (HP=?,LP=1)
np04_WibsReal_Ssps_BeamE_CRT_00001	Configuration for accepting electron-only beam triggers and off-spill through-going cosmic trigger	The cosmic trigger uses a 60 ns coincidence window and a prescale of 5 (expecting 2Hz of triggers). The electron condition is obtained by coincidence hit of both Cherenkov detectors (HP=1,LP=1)
np04_WibsReal_Ssps_BeamTrig_CRT_00002	Configuration for accepting all beam triggers and off-spill through-going cosmic trigger	The cosmic trigger uses a 60 ns coincidence window and a prescale of 5 (expecting 2Hz of triggers)
np04_WibsReal_Ssps_BeamTrigLowE_CRT00005	Configuration for low energy beam wth non-electron beam trigger and off-spill through-going cosmic trigger	The cosmic trigger uses a 60 ns coincidence window and a prescale of 5 (expecting 2Hz of triggers)
np04_WibsReal_Ssps_BeamTrig2GeV_NoCRT_00002	Same as np04_WibsReal_Ssps_BeamTrig1GeV_00014. Beam trigger with electron veto. No CRT trigger	Veto electrons in 2 GeV beam with one of the cerenkovs off. No CRT trigger during off-spill.
np04_WibsReal_Ssps_BeamTrig2GeV_00001	Same as np04_WibsReal_Ssps_BeamTrig1GeV_00014. Beam trigger with electron veto and CRT US/DS coincidence trigger during off-spill.	Veto electrons in 2 GeV beam with one of the cerenkovs off. CRT trigger with 250 ns gate off-spill and prescale of 20.
np04_WibsReal_Ssps_BeamTrig1GeV_00014	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00012 with CRT trigger enabled off-spill	Veto electrons in 1 GeV beam with one of the cerenkovs off. CRT trigger with 250 ns gate off-spill and prescale of 20. v6 adds timing run summary file to `/log/runsummary`. Also threshold updates for ssp601.
np04_WibsReal_Ssps_BeamTrig_00028	WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger @ Full Rate . FE chans @ 900 mV	NEW Run Control host with Beam! Updated for new EB conf. Updated from 00027 to match trigger firmware update
np04_WibsReal_Ssps00138	WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0-3 using PROD_MASTER. Partition 4 using PDTS_TERTIARY. CRT included. SSP thresholds now vary from 100 - 200 ADC	Updated WIB firmware versions to 0x18092601.
np04_WibsFake_Ssps00068	WIBs generating fake data and SSPs producing data on internal and external trigger.	OBSOLETE. Restart from np04_WibsReal_Ssps00124
np04_NoWibsRceEmu_Ssps00012	Clone from np04_WibsReal_Ssps00111 + RCE in emulation mode	OBSOLETE. Restart from np04_WibsReal_Ssps00124
beam_triggered_pds_test00003	Beam trigger requiring coincidence between the Beam Good Particle (trigger) signal and all beam profile monitors. Inputs set for 1us coincidence windows.	OBSOLETE. Restart from np04_WibsReal_Ssps00124
np04_WibsReal_Ssps_BeamTrig_00011	Run with beam external triggers
beam_pds_triggered_test_00002	Trigger on SSPs on Saleve side while beam gate is on (can be used even when there is no extraction)	Based on np04_WibsReal_Ssps00124
np04_WibsReal_Ssps_BeamTrig_3x_prescale_00003	WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. Beam trigger prescaled by a factor of 3. Use if the “GeneralTrigger” rate on the CESAR GUI is around 75 Hz.	Same as np04_WibsReal_Ssps_BeamTrig_3x_prescale_00003 but with a lower prescale
np04_WibsReal_Ssps_BeamTrig_2x_prescale_00003	WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. Beam trigger prescaled by a factor of 3. Use if the “GeneralTrigger” rate on the CESAR GUI is around 50 Hz.	Same as np04_WibsReal_Ssps_BeamTrig_3x_prescale_00003 but with prescale of 2
CTBTest00013	Advanced testing configuration with random trigger	Configuration to be used for trigger tests. Only for experts. Don't event considering using it.

FEMB Calibration Configurations

Configuration Name	Description	Comments
np04_FEMB14mVfC2usPulser50_00001	FEMB Pulser config DAC=50	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser40_00001	FEMB Pulser config DAC=40	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser35_00001	FEMB Pulser config DAC=35	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser30_00001	FEMB Pulser config DAC=30	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser25_00001	FEMB Pulser config DAC=25	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser21_00001	FEMB Pulser config DAC=21	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser18_00001	FEMB Pulser config DAC=18	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser15_00001	FEMB Pulser config DAC=15	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser12_00001	FEMB Pulser config DAC=12	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser10_00001	FEMB Pulser config DAC=10	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser8_00001	FEMB Pulser config DAC=8	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser7_00001	FEMB Pulser config DAC=7	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser6_00001	FEMB Pulser config DAC=6	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser5_00001	FEMB Pulser config DAC=5	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser4_00001	FEMB Pulser config DAC=4	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser3_00001	FEMB Pulser config DAC=3	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014
np04_FEMB14mVfC2usPulser2_00001	FEMB Pulser config DAC=2	Based on np04_WibsReal_Ssps_BeamTrig1GeV_00014

The production sw is in dune-artdaq-April2014

These configurations use the inhibit and routing masters. Event builder and data logger functionality are merged. Data are NOT distributed to the dispatchers.

Cold Box Configurations

CRT trigger testing configurations

Configuration Name	Description	Comments
np04_WibsReal_Ssps_TrigTest_CRT_00004	CRT US/DS trigger for through-going muons with a coincidence gate of 100 ns	Based on np04_WibsReal_Ssps_BeamTrigLowE_NoCRT_00003
np04_WibsReal_Ssps_TrigTest_CRT_00006	Same as 00004 with a coincidence gate of 80 ns
np04_WibsReal_Ssps_TrigTest_CRT_00012	Same as 00004 with a coincidence gate of 60 ns	10 ms request window for CTB
np04_WibsReal_Ssps_TrigTest_CRT_00008	Same as 00004 with a coincidence gate of 40 ns
np04_WibsReal_Ssps_TrigTest_CRT_00009	Separate CRT US/DS triggers for Saleve and Jura sides on through-going muons with a coincidence gate of 100 ns
np04_WibsReal_Ssps_TrigTest_CRT_00010	Same as 00009 with a coincidence gate of 80 ns
np04_WibsReal_Ssps_TrigTest_CRT_00011	Same as 00009 with a coincidence gate of 60 ns
np04_WibsReal_Ssps_TrigTest_CRT_px5_00001	Same as np04_WibsReal_Ssps_TrigTest_CRT_00006 with a prescale of 5	Put in place to deal with high rate of halo muons due to 150 GeV muon beam upstream

Testing configurations for PDS with CRT triggers

Obsolete

np04_WibsReal_Ssps_BeamTrig1GeV_00010: Spawned from np04_WibsReal_Ssps_BeamTrig_00023.Veto electrons in 1 GeV beam with one of the cerenkovs off. v6 adds timing run summary file to /log/runsummary. Also threshold updates for ssp601.
np04_newTiming00003: Config spawned from np04_WibsReal_Ssps00132. Includes changes and fw versions for new timing.

np04_WibsReal_Ssps_BeamTrig_H7_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger with Cherenkov particle selection with C713=0 and C716=0.
np04_WibsReal_Ssps_BeamTrig_H6_00002: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger with Cherenkov particle selection with C713=1 and C716=1.
np04_WibsReal_Ssps_BeamTrig_H3_00002: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger with Cherenkov particle selection with C713=0 and C716=1.
np04_WibsReal_Ssps_BeamTrig_H3pi_00002: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger with Cherenkov particle selection with C713=1 and C716=0.
np04_WibsReal_Ssps_BeamTrig_4x_prescale_00005: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger prescaled by a factor 4. Use if the “GeneralTrigger” rate on the CESAR GUI is > 100 Hz.
np04_WibsReal_Ssps_BeamTrig_3x_prescale_00005: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger prescaled by a factor 4. Use if the “GeneralTrigger” rate on the CESAR GUI is > 75 Hz.
np04_WibsReal_Ssps_BeamTrig_2x_prescale_00005: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP thresholds now vary from 100 - 200 ADC. Beam trigger prescaled by a factor 4. Use if the “GeneralTrigger” rate on the CESAR GUI is > 50 Hz.
np04_WibsReal_Ssps_BeamTrig_piHiE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. High energy beam pion trigger. No prescale. To be used only on high energy beam (>5 GeV).
np04_WibsReal_Ssps_BeamTrig_pHiE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. High energy beam proton trigger. No prescale. To be used only on high energy beam (>5 GeV).
np04_WibsReal_Ssps_BeamTrig_KaonHiE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. High energy beam kaon trigger. No prescale. To be used only on high energy beam (>5 GeV).
np04_WibsReal_Ssps_BeamTrig_piMidE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. Intermediate energy beam pion trigger. No prescale. To be used only on intermediate energy beam (3-5 GeV).
np04_WibsReal_Ssps_BeamTrig_eMidE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. Intermediate energy beam electron trigger. No prescale. To be used only on intermediate energy beam (3-5 GeV).
np04_WibsReal_Ssps_BeamTrig_eLowE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. Low energy beam electron trigger. No prescale. To be used only on low energy beam.
np04_WibsReal_Ssps_BeamTrig_NoeLowE_00001: WIBs configuring FEMBs and SSPs producing data on internal+external trigger.Partitions 0. SSP threshold @ 200 ADC. Low energy beam non-electron trigger. No prescale. To be used only on low energy beam.
PD_Cosmic_test: It is the same as np04_WibsReal_Ssps00051 but with a SSP threshold of 250ADC, instead of 15. Trying to look at cosmics.
PD_test00004: It is the same as np04_WibsReal_Ssps00051 but with a SSP threshold of 30 ADC, instead of 15.
PD_test00003: It is the same as np04_WibsReal_Ssps00051 but with a SSP threshold of 35 ADC, instead of 15.
PD_test00002: It is the same as np04_WibsReal_Ssps00051 but with a SSP threshold of 25 ADC, instead of 15.
np04_WibsReal_SspsExtOnly00004: WIBs configuring FEMBs and SSPs only producing data on external trigger. Use with care since FEMBs may overheat! Max 2 hours running and temperature should be monitored over DCS.
np04_WibsFake_SspsExtOnly00009: WIBs generating fake data and SSPs only producing data on external trigger.
np04_WibsFake_Ssps00007: WIBs generating fake data and SSPs producing data on internal and external trigger.
np04_WibsFake_Ssps00009: As np04_WibsFake_Ssps00007 but with new timing firmware.
np04_WibsFake_SspsQI00020: WIBs generating fake data and SSPs producing data on internal and external trigger + 300 Hz of charge injection.
RCE_emu_SspsExtOnly00003: RCEs generating fake data and SSPs only producing data on external trigger.

marcotest00002:

np04_WibsFake_SspsQI00011: latest default for cryostat; has WIBs sending fake data, and SSPs with charge injection
RCE_emu00035: np04_WibsFake_SspsQI00011 with RCEs in emulation mode, with some improvements from Kurt.
np04_WibsFake_SspsQIHdrOnly00001: np04_WibsFake_SspsQI00011 with SSP Header Only mode

ssptest00038: Same as ssptest00037, but with
- ssp102 & ssp103 at 100ADC
ssptest00037: Same as ssptest00036, but with
- ssp105: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25]
ssptest00036: Same as ssptest00035, but with
- ssp103: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [65, 65, 65, 65, 65, 65, 65, 65, 65, 65, 65, 65]
ssptest00035: Same as ssptest00034, but with
- ssp102: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [65, 65, 65, 65, 65, 65, 65, 65, 65, 65, 65, 65]
ssptest00034: It is the same as artdaq_v3_testing00047, but with
- ssp102: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50]
- ssp103: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50]
- ssp104: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15]
- ssp105: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15]
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
- dispatcher metrics labeled as dispatcher instead of datalogger 5
ssptest00033: It is the same as ssptest00028, but with dispatcher metrics labeled as dispatcher instead of datalogger 5
ssptest00031: It is the same as artdaq_v3_testing00047, but with
- All SSPs with a 100 ADC threshold
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
ssptest00030: It is the same as artdaq_v3_testing00047, but with
- All SSPs with a 25 ADC threshold
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
ssptest00029: It is the same as artdaq_v3_testing00047, but with
- All SSPs with a 15 ADC threshold
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
ssptest00028: It is the same as artdaq_v3_testing00047, but with
- All SSPs with a 50 ADC threshold
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
ssptest00027: It is the same as artdaq_v3_testing00047, but with
- All SSPs with a 40 ADC threshold
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
ssptest00026: It is the same as artdaq_v3_testing00047, but with
- ssp102: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30]
- ssp103: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30]
- ssp104: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30]
- ssp105: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30]
- added timing_4 component which will be used on tertiary timing master (partition 4 = partition 0)
ssptest00024: It is the same as artdaq_v3_testing00047, but with
- ssp102: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30]
ssptest0021 - artdaq_v3_testing00032 with update SSP parameters from ssptest00020
Default: artdaq_v3_testing00032 - added v4timing00011 to artdaq_v3_testing00031
ssptest00020: It is the same as artdaq_v3_testing00031, but with
- ssp103: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [15, 25, 25, 25, 50, 25, 15, 15, 15, 15, 15, 15]
- ssp104: daq.fragment_receiver.HardwareConfig.ARR_led_threshold: [15, 15, 15, 15, 15, 15, 15, 15, 25, 15, 15, 15]
artdaq_v3_testing00031 - update SSP parameters in artdaq_v3_testing00029
ssptest000014: It is the same as artdaq_v3_testing00029, but with a SSP threshold of 100 ADC, instead of 15.
ssptest000013: It is the same as artdaq_v3_testing00029, but with a SSP threshold of 50 ADC, instead of 15.
ssptest000012: It is the same as artdaq_v3_testing00029, but with a SSP threshold of 35 ADC, instead of 15.
ssptest000011: It is the same as artdaq_v3_testing00029, but with a SSP threshold of 30 ADC, instead of 15.
ssptest000010: It is the same as artdaq_v3_testing00029, but with a SSP threshold of 25 ADC, instead of 15.
ssptest00009: It is the same as artdaq_v3_testing00029, but with a SSP threshold of 20 ADC, instead of 15.
ssptest00008: It is the same as artdaq_v3_testing00028, but with a SSP threshold of 100 ADC, instead of 15.
ssptest00006: It is the same as artdaq_v3_testing00028, but with a SSP threshold of 50 ADC, instead of 15.
ssptest00003: It is the same as artdaq_v3_testing00028, but with a SSP threshold of 30 ADC, instead of 15.
ssptest00002: It is the same as artdaq_v3_testing00028, but with a SSP threshold of 25 ADC, instead of 15.
ssptest00001: It is the same as artdaq_v3_testing00028, but with a SSP threshold of 20 ADC, instead of 15.
artdaq_v3_testing00029 : Longer timeout for EventBuilders

Deprecated Configurations

RCE_emu00009: clone from artdaq_v3_testing00036 with RCEs in emulation mode.
RCE_emu00008: It is the same as RCE_emu00007, but without the automatic file closing (after some number of events or a specific raw data file size)
RCE_emu00007: It has metrics reporting to disk files removed
RCE_emu00006: RCE Emulation based on artdaq_v3_testing00028

-- JohnChristianFreeman - 2019-12-02

Topic revision: r238 - 2019-12-02 - JohnChristianFreeman

CENF

Public webs

- Cern Search
- TWiki Search
- Google Search
CENF All webs

Copyright &© 2008-2022 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
or Ideas, requests, problems regarding TWiki? use Discourse or Send feedback

Configuration Name	Description	Comments
np04_coldbox_g2s2b2_nopulser_00007	gain 2, shaping 2, mixed baselines	Based on np04_CRT_noprescale_test_00003
np04_coldbox_g2s2b2_expulser5_00001	External FEMB pulser config DAC=05	Based on np04_coldbox_g2s2b2_nopulser_00007
np04_coldbox_g2s2b2_nopulser_15msec_00003	15msec readout window, gain 2, shaping 2, mixed baselines	Use this config to make other RO files
np04_coldbox_g2s2b2_nopulser_100msec_00003	100msec readout window, gain 2, shaping 2, mixed baselines	Should include 10 event builders and 0.5Hz random trigger

Configuration Name	Description	Comments
np04_TrigTest_CRTvSSP_00001	4 CRT US/DS triggers on horizontal planes for through-going muons with a coincidence gate of 60 ns	Based on np04_WibsReal_Ssps_TrigTest_CRT_00004
np04_TrigTest_CRTvSSP_00002	4 CRT US/DS triggers for high/low through-going muons on each quadrant	Muons with a coincidence gate of 60 ns
np04_TrigTest_CRTvSSP_00003	4 CRT US/DS triggers for through-going muons across quadrants	Muons with a coincidence gate of 60 ns