How to run UITF Mott CODA
Revision as of 04:04, 28 July 2022 by Moffit (talk | contribs) (→Resetting / Restarting DAQ Processes)
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CODA Startup
- From an accelerator machine: ssh -X idaq@itfmdaq0
Note: idaq is the injector DAQ account and uses ssh authorized_keys for login - no need to enter password
Execute the following:
% startCoda
Start and Stop a Run
From Run Control panel, select in the following order (Note: if any of the selection is already completed, move to the next step):
- Configurations => CODA Config => Mott_Sample
- Configure
- Download
- Prestart (or Start. Note that Start combines both Prestart and Go)
- Go
To stop a run:
- End
To start a new run, select:
- Prestart (or Start. Note that Start combines both Prestart and Go)
- Go
- End
and if you want to apply a change or you need a new configuration:
- Reset
and start from number 5.
Resetting / Restarting DAQ Processes
- From the terminal where startCoda was executed:
Restart All Components:
% restartStuff
Restart Platform (if components cannot connect):
% restartPlatform
Configuration File
The DAQ Configuration file is found
- on itfmdaq0:
/opt/idaq/itfsbcmdaq0/cfg/uitf_mott.cfg
- on itfsbcmdaq0:
~/cfg/uitf_mott.cfg
An example file is found below:
/* -*- mode: c; -*- */
Date_Created="";
ti:
{
blocklevel = 1;
bufferlevel = 10;
/*
Trigger Prescale := 1 / 2^(prescale)
prescale is fixed to 0 for Mott_Int
*/
prescale = 0;
trigger_rules: (
{ /* rule 1 */
period = 80;
timestep = 2;
},
{ /* rule 2 */
period = 60;
timestep = 2;
},
{ /* rule 3 */
period = 1;
timestep = 0;
},
{ /* rule 4 */
period = 1;
timestep = 0;
}
);
random_pulser:
{
enabled = 0;
prescale = 7;
}
fixed_pulser:
{
enabled = 0;
nevents = 0xffff;
period = 1;
timestep = 1;
}
}
helicity_decoder:
{
address = 0xa80000;
slot = 21;
input_delay = 0x100; // 0x100 = 2048 ns (1 = 8 ns)
trigger_latency_delay = 0x40; // 0x40 = 512 ns (1 = 8ns)
use_internal_helicity = 0;
internal_helicity:
{
helicity_pattern = 2; // 2 = OCTET
window_delay = 10;
settle_time = 0x40; // 0x40 = 512 ns (1 = 8ns)
stable_time = 0x80; // 0x80 = 1024 ns (1 = 8ns)
seed = 0xabcdef01;
}
}
fadc250: (
{
type = "integrating";
address = 0xee0000;
slot = 18;
sd_fp_address = 0xeb00;
init_arg = 0x13;
mode = 1;
pl = 0;
ptw = 0;
nsb = 1;
nsa = 498;
np = 1;
delay8 = 0;
delay9 = 0;
delay11 = 0;
threshold =
[ 1, 1, 1, 1,
1, 1, 1, 1,
1, 1, 1, 1,
1, 1, 1, 1 ];
dac =
[ 3300, 3300, 3300, 3300,
3300, 3300, 3300, 3300,
3300, 3300, 3300, 3300,
3300, 3300, 3300, 3300 ];
},
{
type = "counting";
address = 0xed0000;
slot = 13;
sd_fp_address = 0xea00;
init_arg = 0x13;
mode = 1;
pl = 260;
ptw = 500;
nsb = 5;
nsa = 28;
np = 1;
delay8 = 0;
delay9 = 2;
delay11 = 4;
threshold =
[
10, // CH1 - E LEFT
10, // CH2 - E RIGHT
10, // CH3 - T LEFT
10, // CH4 - T RIGHT
10, // CH5 -
10, // CH6 -
10, // CH7 -
10, // CH8 -
10, // CH9 -
10, // CH10 -
10, // CH11 - Mott Trigger
10, // CH12 -
10, // CH13 - Delayed Helicity
10, // CH14 - T_Settle
10, // CH15 - Pat Sync
10 // CH16 - Pair Sync
];
dac =
[
3050, // CH1 - E LEFT Range - 1.0 V
3050, // CH2 - E RIGHT - 1.0 V
3300, // CH3 - T LEFT - 1.0 V
3300, // CH4 - T RIGHT - 1.0 V
3300, // CH5 - - 1.0 V
3300, // CH6 - - 1.0 V
3300, // CH7 - - 1.0 V
3300, // CH8 - - 1.0 V
3300, // CH9 - - 1.0 V
3300, // CH10 - - 1.0 V
3300, // CH11 - Mott Trigger - 1.0 V
3300, // CH12 - - 1.0 V
3300, // CH13 - Delayed Helicity - 1.0 V
3300, // CH14 - T_Settle - 1.0 V
3300, // CH15 - Pat Sync - 1.0 V
3300 // CH16 - Pair Sync - 1.0 V
];
}
);