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| proton-capture on 118Te |
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Message ID: 71
Entry time: Fri Mar 20 04:29:45 2020
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| Author: |
Jan |
| Category: |
DAQ |
| Subject: |
DAQ settings for the first night |
| Year: |
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// -*- C++ -*-
/// ************************
// SETUP FILE FOR
// E127 experiment at ESR 2020
/// ************************
/////////////////////////////////
// ADC GATES
si_stretch = 2000 ns;
si_delay = 0 ns;
target_stretch = 15000 ns;
target_delay = 5000 ns; //5000 ns;
master_delay = 800 ns;
//////////////////////////////////
/// DOWNSCALING by 2^n
// n=5 >> 32
// n=6 >> 64
// n=7 >> 128
// n=8 >> 256
// n=9 >> 512
// TARGET ON
si_red = 0;
xray_red = 0;
baf_red = 5;//5;
// TARGET OFF
si_red_OFF = 0;
xray_red_OFF = 0;
baf_red_OFF = 0;//5;
//////////////////////////////////
// INPUTS
si_y = ECL_IN(1);
si_x = ECL_IN(2);
xray1 = ECL_IN(3);
xray2 = ECL_IN(4);
xray3 = ECL_IN(5);
baf = ECL_IN(6);
// = ECL_IN(7);
// = ECL_IN(8);
// = ECL_IN(9);
// = ECL_IN(10);
// = ECL_IN(11);
trafo = ECL_IN(12);
I_cool = ECL_IN(13);
U_cool = ECL_IN(14);
jet_S1 = ECL_IN(15);
// = ECL_IN(16);
jet_on = LEMO_IN(1);
jet_off = LEMO_IN(2);
//////////////////////////////
// OUTPUTS
si_gate = GATE_DELAY(1);
target_gate = GATE_DELAY(3);
qdc_gate = GATE_DELAY(4);
master_trig = GATE_DELAY(2);
pico_a = si_gate;
pico_b = target_gate;
//////////////////////////////
// CONSTANTS
long_gate = 2000 ns;
short_gate = 650 ns;
SECTION(all)
{
FRONT_LED(1) = TRIMI_TDT;
SERIAL_TSTAMP_IN = SERIAL_TSTAMP_OUT;
SERIAL_TSTAMP_LATCH = ACCEPT_PULSE;
slew_counter_add = 0x1000000;
fast_busy_len = 1000 ns;
DEADTIME_IN(1) = TRIMI_TDT;
/////////////////////////////////////////////////////////////
//PULSER
// mega_clock
period(4) = 1 us; // needed by UDP reader
// TRIGGER 11 >> interval for scaler readouts
period(1) = 1000 ms;
/////////////////////////////////////////////////////////////
// TRIGGERS
// coinc window length
accept_window_len = 1950 ns;
// THESE ARE THE VULOM INPUTS (det. triggers)
// STRETCH THE TRIGGER SIGNAL LONGER THAN THE accept_window_len
lmu_restart_mode(1) = LEAD_IF_INACT | GATE_ENABLE;
lmu_stretch(1) = long_gate; // front-back coinc gate
trig_stretch(1) = long_gate;
trig_stretch(2) = long_gate;
trig_stretch(3) = long_gate;
trig_stretch(9) = long_gate;
trig_stretch(10) = long_gate;
trig_stretch(11) = long_gate;
// SET UP DELAYS TO MATCH THE TRIGGER SIGNALS
//trig_delay(1) = 800 ns;
//trig_delay(2) = 800 ns;
//trig_delay(3) = 1120 ns;
//trig_delay(9) = 800 ns;
//trig_delay(10) = 800 ns;
//trig_delay(11) = 800 ns;
// STANDARD IS MODE_LEADING_EDGE (trigger on the falling edge)
// MODE_WHEN_PRESENT: check, if a signal is on (e.g. SPILL ON)
//trig_delay_mode(1) = MODE_THIS | MODE_LEADING_EDGE;
// DOWNSCALING FACTORS
// THIS IS FOR GENERATED TPATS (so downscale tpat number with red==2^n)
trig_red(1) = si_red;
trig_red(2) = xray_red;
trig_red(3) = baf_red;
trig_red(9) = si_red_OFF;
trig_red(10) = xray_red_OFF;
trig_red(11) = baf_red_OFF;
// ONLY NEEDED FOR MULTI-EVENT MODE / NO NEED NOW
//multi_trigger = 1;
////////////////////////////////////////////////////
// LMU SETUP
// THIS IS THE LOGIC MATRIX.
// TRIG_LMU_OUT(n) with 'n' being the tpat.
// TRIG_LMU_AUX 1
// silicon x/y OR
LMU_IN(1) = si_x;
LMU_IN(2) = si_y;
LMU_OUT(1) = LMU_IN(1) or LMU_IN(2);
TRIG_LMU_AUX(1) = LMU_OUT(1);
// TRIG_LMU_AUX 2
// xray OR
all_or_mask(2) = xray1 | xray2 | xray3;
LMU_IN(3) = ALL_OR(2);
LMU_OUT(2) = LMU_IN(3);
TRIG_LMU_AUX(2) = ALL_OR(2);
// TRIG_LMU 3
// BaF OR
LMU_IN(4) = baf;
LMU_OUT(4) = LMU_IN(4);
// BaF single
TRIG_LMU_AUX(3) = LMU_OUT(4);
//
TRIG_PENDING[11] = PULSER(1);
// TARGET_ON flag is TRIG_LMU_AUX(4)
// TARGET_ON_TRIGGERS
TRIG_LMU_OUT(1) = TRIG_LMU_AUX(1) and TRIG_LMU_AUX(4); //Si_ON
TRIG_LMU_OUT(2) = TRIG_LMU_AUX(2) and TRIG_LMU_AUX(4); //Xray_ON
TRIG_LMU_OUT(3) = TRIG_LMU_AUX(3) and TRIG_LMU_AUX(4); //BaF_ON
TRIG_LMU_OUT(4) = TRIG_LMU_AUX(1) and TRIG_LMU_AUX(3) and TRIG_LMU_AUX(4); //BaF+Si_ON
//TRIG_LMU_OUT(4) = ;
//TRIG_LMU_OUT(5) = ;
//TRIG_LMU_OUT(6) = ;
//TRIG_LMU_OUT(7) = ;
//TRIG_LMU_OUT(8) = ;
// TARGET_OFF_TRIGGERS
TRIG_LMU_OUT(9) = TRIG_LMU_AUX(1) and not TRIG_LMU_AUX(4); //Si_OFF
TRIG_LMU_OUT(10) = TRIG_LMU_AUX(2) and not TRIG_LMU_AUX(4); //Xray_OFF
TRIG_LMU_OUT(11) = TRIG_LMU_AUX(3) and not TRIG_LMU_AUX(4); //BaF_OFF
//TRIG_LMU_OUT(12) = ;
//TRIG_LMU_OUT(13) = ;
//TRIG_LMU_OUT(14) = ;
//TRIG_LMU_OUT(15) = ;
TRIG_LMU_OUT(16) =
si_x and si_y and
xray1 and xray2 and xray3 and baf and
trafo and I_cool and U_cool and jet_S1;
////////////////////////////////////////////////////////////
// TPAT SETUP
// THIS IS FOR MATCHING: TPAT -> MBS_TRIGGER
// tpat_trig(n) = m
// with n = tpat, m = MBS_trigger
// MBS trigger 1 = JET_ON
tpat_trig(1) = 1;
tpat_trig(2) = 1;
tpat_trig(3) = 1;
tpat_trig(4) = 1;
tpat_trig(5) = 1;
tpat_trig(6) = 1;
tpat_trig(7) = 1;
tpat_trig(8) = 1;
// MBS_trigger 2 = JET_OFF
tpat_trig(9) = 2;
tpat_trig(10) = 2;
tpat_trig(11) = 2;
tpat_trig(12) = 2;
tpat_trig(13) = 2;
tpat_trig(14) = 2;
tpat_trig(15) = 2;
tpat_trig(16) = 2;
// THIS IS FOR ENABLING THE SINGLE TPATS
// WITH A MASK, OR THE TPATS, OR RANGES WITH n : m.
tpat_enable = 1:4, 9:11;
//tpat_enable = 9:11;
//tpat_enable = mask 0xffff;
///////////////////////////////////////////////////////
// GATE & DELAY (MAX=4)
// SET UP THE GATES AND DELAYS
// Silicon ADC gate
// si_gate
GATE_DELAY(1) = MASTER_START;
delay(1) = si_delay;
stretch(1) = si_stretch;
// Masterstart/trigger
// master_trig
GATE_DELAY(2) = MASTER_START;
delay(2) = master_delay;
stretch(2) = 200 ns;
// Xray/BaF ADC gate
// target_gate
GATE_DELAY(3) = MASTER_START;
delay(3) = target_delay;
stretch(3) = target_stretch;
//unused
GATE_DELAY(4) = MASTER_START;
delay(4) = 0 ns;
stretch(4) = 200 ns;
////////////////////////////////////////////////////////
// SIGNAL I/O
// MAP THE LEMO & ECL OUTS
LEMO_OUT(1) = master_trig;
LEMO_OUT(2) = master_trig;
ECL_OUT(1) = si_gate;
ECL_OUT(2) = si_gate;
ECL_OUT(3) = target_gate;
ECL_OUT(4) = target_gate;
ECL_OUT(5) = qdc_gate;
ECL_OUT(6) = qdc_gate;
ECL_OUT(7) = master_trig;
ECL_OUT(8) = master_trig;
ECL_OUT(9) = pico_a;
//ECL_OUT(10) = ;
ECL_OUT(11) = pico_b;
//ECL_OUT(12) = ;
//ECL_OUT(13) = ;
//ECL_OUT(14) = ;
//ECL_OUT(15) = TRIG_LMU_OUT(1);
//ECL_OUT(16) = LMU_OUT(1);
/* Generates internal BOS and EOS. */
/*
spill_period_duration = 20000000 us;
spill_on_duration = 12000000 us;
SECTION(bos_eos_generate)
{
period(3) = spill_period_duration;
GATE_DELAY(3) = PULSER(3);
stretch(3) = spill_on_duration;
delay(3) = 0 ns;
TRIG_PENDING[12] = PULSER(3);
GATE_DELAY(4) = GATE_DELAY(3);
stretch(4) = 50 ns;
delay(4) = 0 ns;
restart_mode(4) = TRAILING_EDGE;
TRIG_PENDING[13] = GATE_DELAY(4);
TRIG_LMU_AUX(3) = GATE_DELAY(3);
}
*/
/* Listens to BOS and EOS from the accelerator. */
////////////////////////////////////////////////////
// JET ON/OFF TRIGGER SETUP
EDGE_GATE_START(1) = jet_on;
TRIG_PENDING[12] = jet_on;
EDGE_GATE_STOP(1) = jet_off;
TRIG_PENDING[13] = jet_off;
TRIG_LMU_AUX(4) = EDGE_GATE(1);
}
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#log_level = verbose
CRATE("Master")
{
event_max = 1
BARRIER
MESYTEC_MADC32(0x00A10000) {
nim_busy = gate0
range = 8 V
resolution=8
hires=true
}
BARRIER
MESYTEC_MADC32(0x00A20000) {
nim_busy = gate0
range = 4 V
resolution=8
hires=true
}
#BARRIER
#CAEN_V965 (0x00B10000) {
# channel_enable = 0..11
#}
BARRIER
CAEN_V775 (0x00C10000) {
common_start = false
time_range = 1200 ns
suppress_invalid = true
suppress_over_range = true
}
BARRIER
CAEN_V775 (0x00C20000) {
common_start = false
time_range = 1200 ns
suppress_invalid = true
suppress_over_range = true
}
BARRIER
#CAEN_V830 (0x00E10000) {
# resolution = 32
# }
#BARRIER
#CAEN_V830 (0x00E20000) {
# resolution = 32
#}
#BARRIER
GROUP("Timetamp")
GSI_VULOM(0x05000000) {
timestamp = true
}
}
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[r3bfuser]
# White Rabbit ID, =0 -> don't write MBS TO timestamp sub-event.
# Subevent 10/1: WR subsystem ID + timestamp
# wr_id = 0x100
# Save LOS/ROLU scalers/samplers every n:th spill, =0 -> don't read.
# Subevent 38/3800: ECL_IN scalers + pileup histogram
# Subevent 39/3900: trloii sampler data
do_beam_scalers = 1
# Save spill structure with 1/10s sized bins.
# do_spill_struct = 10
# Handle spill triggers 10..13 specially, >0 -> keep-alive grace period in s.
# period put to ~2 weeks, to enable long-term vulom scalers with targetOFF
do_spill_triggers = 1000000
# Save TPAT sub-event for every event
# Subevent 36/3600: trlo multi-event TPAT information
do_tpat = 1
# Save LMU scalers on spill triggers (10..13).
# Subevent 37/3700: lmu scalers (input, before / after DT & after reduction)
do_lmu_scalers = 1
# Send beam samplers and LMU scalers via UDP, !="" -> target host.
do_udp = "lxg1275.gsi.de"
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1584673412
Fri Mar 20 04:03:32 CET 2020
e127pi:mrcc:mscf1:getGainCommon 1
e127pi:mrcc:mscf1:getShapingTimeCommon 1
e127pi:mrcc:mscf1:getThresholdCommon 2
e127pi:mrcc:mscf1:getPzCommon 100
e127pi:mrcc:mscf2:getGainCommon 1
e127pi:mrcc:mscf2:getShapingTimeCommon 1
e127pi:mrcc:mscf2:getThresholdCommon 2
e127pi:mrcc:mscf2:getPzCommon 100
e127pi:mrcc:mscf3:getGainCommon 6
e127pi:mrcc:mscf3:getShapingTimeCommon 3
e127pi:mrcc:mscf3:getThresholdCommon 1
e127pi:mrcc:mscf3:getPzCommon 38
e127pi:mrcc:mscf1:getGain1 4
e127pi:mrcc:mscf1:getGain2 4
e127pi:mrcc:mscf1:getGain3 4
e127pi:mrcc:mscf1:getGain4 4
e127pi:mrcc:mscf1:getShapingTime1 1
e127pi:mrcc:mscf1:getShapingTime2 1
e127pi:mrcc:mscf1:getShapingTime3 1
e127pi:mrcc:mscf1:getShapingTime4 1
e127pi:mrcc:mscf2:getGain1 9
e127pi:mrcc:mscf2:getGain2 4
e127pi:mrcc:mscf2:getGain3 8
e127pi:mrcc:mscf2:getGain4 8
e127pi:mrcc:mscf2:getShapingTime1 2
e127pi:mrcc:mscf2:getShapingTime2 2
e127pi:mrcc:mscf2:getShapingTime3 2
e127pi:mrcc:mscf2:getShapingTime4 2
e127pi:mrcc:mscf3:getGain1 15
e127pi:mrcc:mscf3:getGain2 0
e127pi:mrcc:mscf3:getGain3 15
e127pi:mrcc:mscf3:getGain4 10
e127pi:mrcc:mscf3:getShapingTime1 0
e127pi:mrcc:mscf3:getShapingTime2 0
e127pi:mrcc:mscf3:getShapingTime3 1
e127pi:mrcc:mscf3:getShapingTime4 1
e127pi:mrcc:mscf1:getThreshold1 4
e127pi:mrcc:mscf1:getThreshold2 4
e127pi:mrcc:mscf1:getThreshold3 4
e127pi:mrcc:mscf1:getThreshold4 1
e127pi:mrcc:mscf1:getThreshold5 4
e127pi:mrcc:mscf1:getThreshold6 4
e127pi:mrcc:mscf1:getThreshold7 4
e127pi:mrcc:mscf1:getThreshold8 4
e127pi:mrcc:mscf1:getThreshold9 4
e127pi:mrcc:mscf1:getThreshold10 5
e127pi:mrcc:mscf1:getThreshold11 5
e127pi:mrcc:mscf1:getThreshold12 5
e127pi:mrcc:mscf1:getThreshold13 3
e127pi:mrcc:mscf1:getThreshold14 4
e127pi:mrcc:mscf1:getThreshold15 5
e127pi:mrcc:mscf1:getThreshold16 5
e127pi:mrcc:mscf1:getPz1 128
e127pi:mrcc:mscf1:getPz2 128
e127pi:mrcc:mscf1:getPz3 128
e127pi:mrcc:mscf1:getPz4 128
e127pi:mrcc:mscf1:getPz5 128
e127pi:mrcc:mscf1:getPz6 128
e127pi:mrcc:mscf1:getPz7 128
e127pi:mrcc:mscf1:getPz8 128
e127pi:mrcc:mscf1:getPz9 128
e127pi:mrcc:mscf1:getPz10 128
e127pi:mrcc:mscf1:getPz11 128
e127pi:mrcc:mscf1:getPz12 128
e127pi:mrcc:mscf1:getPz13 128
e127pi:mrcc:mscf1:getPz14 128
e127pi:mrcc:mscf1:getPz15 128
e127pi:mrcc:mscf1:getPz16 128
e127pi:mrcc:mscf2:getThreshold1 255
e127pi:mrcc:mscf2:getThreshold2 255
e127pi:mrcc:mscf2:getThreshold3 0
e127pi:mrcc:mscf2:getThreshold4 255
e127pi:mrcc:mscf2:getThreshold5 255
e127pi:mrcc:mscf2:getThreshold6 255
e127pi:mrcc:mscf2:getThreshold7 255
e127pi:mrcc:mscf2:getThreshold8 255
e127pi:mrcc:mscf2:getThreshold9 255
e127pi:mrcc:mscf2:getThreshold10 255
e127pi:mrcc:mscf2:getThreshold11 0
e127pi:mrcc:mscf2:getThreshold12 255
e127pi:mrcc:mscf2:getThreshold13 255
e127pi:mrcc:mscf2:getThreshold14 255
e127pi:mrcc:mscf2:getThreshold15 0
e127pi:mrcc:mscf2:getThreshold16 255
e127pi:mrcc:mscf2:getPz1 128
e127pi:mrcc:mscf2:getPz2 128
e127pi:mrcc:mscf2:getPz3 87
e127pi:mrcc:mscf2:getPz4 255
e127pi:mrcc:mscf2:getPz5 255
e127pi:mrcc:mscf2:getPz6 255
e127pi:mrcc:mscf2:getPz7 255
e127pi:mrcc:mscf2:getPz8 255
e127pi:mrcc:mscf2:getPz9 255
e127pi:mrcc:mscf2:getPz10 255
e127pi:mrcc:mscf2:getPz11 85
e127pi:mrcc:mscf2:getPz12 255
e127pi:mrcc:mscf2:getPz13 255
e127pi:mrcc:mscf2:getPz14 255
e127pi:mrcc:mscf2:getPz15 85
e127pi:mrcc:mscf2:getPz16 255
e127pi:mrcc:mscf3:getThreshold1 5
e127pi:mrcc:mscf3:getThreshold2 255
e127pi:mrcc:mscf3:getThreshold3 255
e127pi:mrcc:mscf3:getThreshold4 255
e127pi:mrcc:mscf3:getThreshold5 255
e127pi:mrcc:mscf3:getThreshold6 255
e127pi:mrcc:mscf3:getThreshold7 255
e127pi:mrcc:mscf3:getThreshold8 255
e127pi:mrcc:mscf3:getThreshold9 255
e127pi:mrcc:mscf3:getThreshold10 255
e127pi:mrcc:mscf3:getThreshold11 255
e127pi:mrcc:mscf3:getThreshold12 255
e127pi:mrcc:mscf3:getThreshold13 255
e127pi:mrcc:mscf3:getThreshold14 255
e127pi:mrcc:mscf3:getThreshold15 255
e127pi:mrcc:mscf3:getThreshold16 255
e127pi:mrcc:mscf3:getPz1 128
e127pi:mrcc:mscf3:getPz2 128
e127pi:mrcc:mscf3:getPz3 128
e127pi:mrcc:mscf3:getPz4 128
e127pi:mrcc:mscf3:getPz5 128
e127pi:mrcc:mscf3:getPz6 128
e127pi:mrcc:mscf3:getPz7 128
e127pi:mrcc:mscf3:getPz8 128
e127pi:mrcc:mscf3:getPz9 128
e127pi:mrcc:mscf3:getPz10 128
e127pi:mrcc:mscf3:getPz11 128
e127pi:mrcc:mscf3:getPz12 128
e127pi:mrcc:mscf3:getPz13 128
e127pi:mrcc:mscf3:getPz14 128
e127pi:mrcc:mscf3:getPz15 128
e127pi:mrcc:mscf3:getPz16 128
e127pi:mrcc:mscf1:getSingleChMode 0
e127pi:mrcc:mscf2:getSingleChMode 0
e127pi:mrcc:mscf3:getSingleChMode 0
e127pi:mrcc:mscf1:getRcMode 1
e127pi:mrcc:mscf2:getRcMode 1
e127pi:mrcc:mscf3:getRcMode 1
e127pi:mrcc:mscf1:getAutoPZ 0
e127pi:mrcc:mscf2:getAutoPZ 0
e127pi:mrcc:mscf3:getAutoPZ 1
e127pi:mrcc:mscf1:getMultiplicityHi 8
e127pi:mrcc:mscf2:getMultiplicityHi 8
e127pi:mrcc:mscf3:getMultiplicityHi 8
e127pi:mrcc:mscf1:getMultiplicityLo 4
e127pi:mrcc:mscf2:getMultiplicityLo 4
e127pi:mrcc:mscf3:getMultiplicityLo 1
e127pi:mrcc:mscf1:getSumTrgThresh 10
e127pi:mrcc:mscf2:getSumTrgThresh 10
e127pi:mrcc:mscf3:getSumTrgThresh 100
e127pi:mrcc:mscf1:getBlrOn 1
e127pi:mrcc:mscf2:getBlrOn 1
e127pi:mrcc:mscf3:getBlrOn 0
e127pi:mrcc:mscf1:getCoincTime 128
e127pi:mrcc:mscf2:getCoincTime 128
e127pi:mrcc:mscf3:getCoincTime 100
e127pi:mrcc:mscf1:getThreshOffset 100
e127pi:mrcc:mscf2:getThreshOffset 100
e127pi:mrcc:mscf3:getThreshOffset 1
e127pi:mrcc:mscf1:getShaperOffset 100
e127pi:mrcc:mscf2:getShaperOffset 100
e127pi:mrcc:mscf3:getShaperOffset 100
e127pi:mrcc:mscf1:getBlrThresh 25
e127pi:mrcc:mscf2:getBlrThresh 25
e127pi:mrcc:mscf3:getBlrThresh 10
e127pi:mrcc:mscf1:getECLDelay 0
e127pi:mrcc:mscf2:getECLDelay 0
e127pi:mrcc:mscf3:getECLDelay 0
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