Difference between revisions of "Compton DAQ Dev"
From Hall A Wiki
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updated R. Michaels Oct 12, 2022 | updated R. Michaels Oct 12, 2022 | ||
| − | Here is a picture https:// | + | Here is a picture https://userweb.jlab.org/~rom/compton/polarimeter_daq.xfig.pdf |
The basic configuration of the DAQ | The basic configuration of the DAQ | ||
| − | DAQ config: https:// | + | DAQ config: https://userweb.jlab.org/~rom/compton/haVTP_config.png |
| − | ROC1 : https:// | + | ROC1 : https://userweb.jlab.org/~rom/compton/roc1_config.png |
| − | VTP : https:// | + | VTP : https://userweb.jlab.org/~rom/compton/vtpROC_config.png |
== [[How to Run the Current Setup]] == | == [[How to Run the Current Setup]] == | ||
Revision as of 13:10, 13 October 2022
Here are some notes on the project of developing the Compton counting mode DAQ. The original work was done mainly by Bryan Moffit and Ben Raydo in 2020, with input from others.
It is foreseen to be a precurser of a moller polarimeter DAQ as well as a counting-mode DAQ for the MOLLER project, etc.
See earlier work https://hallaweb.jlab.org/wiki/index.php/Compton_Counting_DAQ_Software_HOWTO
Contents
Budget and Plan
Budget and Plan
Upgrade of Compton and Moller polarimeter DAQ in halls A and C.
The 4 systems are approximately the same. The FADC will be modified
to support both counting mode and integrating mode.
Item Price each Qty Line cost
VXS crate 16.5 k 4 66 k
VTP 10 k 4 40 k
FADC (was not in budget)
cpu (ATOM) 3 k 4 12 k
SD 2 k 4 8 k
scaler 4 k 4 16 k
VETROC 2 k 8 16 k
TI 2 k 4 8 k
I/O 1.5 k 4 6 k
Spares 43 k
==========================================
TOTAL 215 k$
It's essentially 43k$ per DAQ (times 5 since we need spares)
except we must scrounge the FADCs. We'll buy the first system
for the hall C moller in FY2023. This 43k$ is in the FY2023 budget.
After that we may need to refine the design. Then in FY2024 we'll
purchase/build 3 more DAQs. Finally, buy spares in FY2025.
Documents
Here is the VTP manual https://userweb.jlab.org/~rom/compton/VTP-Manual.pdf
Current Test Setup
updated R. Michaels Oct 12, 2022
Here is a picture https://userweb.jlab.org/~rom/compton/polarimeter_daq.xfig.pdf
The basic configuration of the DAQ
DAQ config: https://userweb.jlab.org/~rom/compton/haVTP_config.png
ROC1 : https://userweb.jlab.org/~rom/compton/roc1_config.png
VTP : https://userweb.jlab.org/~rom/compton/vtpROC_config.png
How to Run the Current Setup
This is a VXS crate located in the TEDF building cubicle 11. The crate is at the top of the rack. The crate was formerly installed in hall A during PREX/CREX.
updated Oct 12, 2022. R. Michaels How to login to the two ROCs and start the ROC ssh -X amoll1 -l sbs-onl ./startroc1 ssh -X havtp1 -l sbs-onl ./startRoc How to start CODA on atedf3. Username adaq. kcoda startcoda VTP readout havtp1:/home/sbs-onl/comptonDaq/vtp/rol/vtp_list.so ROC1 readout amoll1:/home/sbs-onl/comptonDaq/rol/vtpCompton_list.so Oct 12, 2022. Currently using a 50 Hz front-panel pulser trigger on TI. Later want to modify this to use a trigger from VTP based on data from FADC and/or the VETROC. If I drop the VTP from the readout and remove tiRocEnable(2) from amoll1:/home/sbs-onl/comptonDaq/rol/vtpCompton_list.c then the DAQ runs fine and both the FADC and VETROC data make sense. Next I added the VTP. Still a FP trigger. It downloads and prestarts. But here is where the problems start.
Current Problems
Oct 13, 2022. R. Michaels
Yesterday a problem was overcome: wrong firmware.
vtpInit: VTP_FW_Version=0x10004, VTP_FW_Type=19
VTP_FW_Type 19 is the SoLID ECAL test firmware, needed 15 for Compton.
Ben fixed it by editing
/usr/local/vtp/params/firmwares/vtp_firmware.txt
Problematic symptoms today:
Considering the VTP vtp_list.c
Running the DAQ with a 50 Hz pulser for the FP TI input.
With the following default combination
#define USE_DMA
#define READOUT_TI
#define READOUT_VTP
The DAQ was limited to 1.5 Hz. The VTP produced 10 words which
were featureless (always the same numbers). I don't know what
the VTP should produce.
Using the following, all components ran at 50 Hz, but it's just info,
it's not what we want.
#define USE_DMA
#define READOUT_TI
// #define READOUT_VTP
Using the following, all components ran at 50 Hz, but the code did not
compile, as is. I had to replace gpDmaBuf (undefined anywhere) with pBuf.
It seemed to be what we wanted, but I'm not sure.
// #define USE_DMA
#define READOUT_TI
#define READOUT_VTP
However, every event produces a timeout. Printouts on the havtp1 ROC:
{vtpEbTiEventReadErrors=1}
{vtpEbEventReadErrors=8051}
vtpEbReadEvent: TIMEOUT ERROR (cnt=8052)
the 8051 and 8052 increment with each event.
Questions
1. What data is the VTP supposed to produce ?
I think it is "diagnostic event data" to confirm trigger decisions.
2. What causes the data to be ready ?
Perhaps I am missing a link.
3. Where is vtpEbTiReadEvent defined ? I did not see it
in the library.
4. Is there a special significance to gpDmaBuf and where is
it defined ?
---------------------------------------------------------------------------------
Analysis Software
Nothing here yet. Work in progress. But there was software for the DAQ used during PREX/CREX.
Old Results
- Background information: "https://userweb.jlab.org/~rom/Compton_info"
- Results from PREX/CREX "https://userweb.jlab.org/~rom/Compton_ML" (me bored during pandemic)
- Older Material "https://userweb.jlab.org/~rom/compton_old"
