Tracker Databases
Tracker Databases
There are a few tracker databases hosted at different sites. This wiki page currently focuses on the ones that interact with Fermilab-hosted mu2e_tracker_prd
database and uses tools available in the TrackerHardwareDB git repository. If you have any questions or comments, contact Andy Edmonds.
Setting Up
To use the tools described on this wiki page, you need to clone the TrackerHardwareDB git repository. The following instructions are for running on the mu2egpvms but some tools (e.g. the panel QC viewer) could be run from any machine:
ssh -XY username@mu2egpvmXX.fnal.gov cd /mu2e/app/users/username/ git clone https://github.com/Mu2e/TrackerHardwareDB
To get any code updates, you should periodically do
cd TrackerHardwareDB git pull
FNAL Planes Database
The database for the plane construction at FNAL. The working version is not hosted on mu2e_tracker_prd
but is copied to the imported.fnal_planes
database table in mu2e_tracker_prd
.
Importing
To import to mu2e_tracker_prd
:
cd TrackerHardwareDB/python python3 create_imported_fnal_planesdb.py path/to/fnal/planesdb
This will create two .sql files. You will need the mu2e_tracker_admin database role to then do
cd ../sql psql -h ifdb08 -p 5459 mu2e_tracker_prd < create_imported_fnal_planesdb.sql psql -h ifdb08 -p 5459 mu2e_tracker_prd < insert_imported_fnal_planesdb.sql
The information can then be viewed using the panel QC viewer below.
Panel QC Database
The panel QC database that is stored in mu2e_tracker_prd
Viewing Database
The panel QC database viewer can be run on any machine connected to the internet with Node.js installed.
Below are instructions to run the viewer on the mu2egpvm machines but in principle it is runnable from anywhere.
Installation
To install the panel QC viewer:
cd TrackerHardwareDB/panel-qc-viewer/ npm install
Running
To run the panel QC viewer, you need to forward a port when you ssh to the mu2egpvm machine:
ssh -L 3000:localhost:3000 -XY username@mu2egpvmXX.fnal.gov cd TrackerHardwareDB/panel-qc-viewer npm start
Then you can open a browser and go to localhost:3000 on your local machine
To run on a different port you can type:
PORT=XXXX npm start
Updating Database
There are a few python scripts that can be used to update the qc.panels
table. To set up to run the python scripts you need to do the following:
cd TrackerHardwareDB/python setup mu2e muse setup Offline setup pyana
Then each scripts follows a similar pattern:
- Run a python scripts to create a .sql file
- Check the .sql file for any obvious errors
- Run commands contained in the .sql file. This puts the data in the database
To put data in the database, you need to have the mu2e_tracker_writer
database role
Adding a new panel
cd TrackerHardwareDB/python python3 create_insert_new_panels.py --panel_ids X Y Z psql -h ifdb08 -p 5459 mu2e_tracker_prd < insert_new_panels.sql
will create .sql files to insert new rows for panels X, Y, and Z. Note that X, Y, Z do not need to contain "mn" or "MN" (the script will remove these characters)
Changing missing_straws, high_current_wires, etc.
cd TrackerHardwareDB/python python3 create_update_qc_panels_table.py --panel_id XX --{new/add/remove}_{column1} A B C --{new/add/remove}_{column2} D E F psql -h ifdb08 -p 5459 mu2e_tracker_prd < update_qc_panels_table.sql
will create .sql files to update panel XX.
Some examples:
- This will replace the current contents of
missing_straws
column for panel 53 with straw numbers 1, 2, 3.
python3 create_update_qc_panels_table.py --panel_id 53 --new_missing_straws 1 2 3
- This will add the straw number 4 to the current list of
high_current_wires
for panel 76:
python3 create_update_qc_panels_table.py --panel_id 76 --add_high_current_wires 4
- This will remove the straw number 5 from the current list of
missing_wires
and add the straw numbers 88 and 89 to the current list ofloose_omega_pieces
for panel 121:
python3 create_update_qc_panels_table.py --panel_id 121 --remove_missing_wires 5 --add_loose_omega_pieces 88 89
Adding earboard test results
There are two things to do:
1. Add the generated pdf file to the repository
cd TrackerHardwareDB/panel-qc-viewer/public/images/earboard/ cp /path/to/images/plot_*.pdf . git add *.pdf git commit -m "Adding ear board plots" git push
2. Update the result in the database with true
or false
cd TrackerHardwareDB/python python3 create_update_qc_panels_table.py --panel_id 121 --earboard true (or false) psql -h ifdb08 -p 5459 mu2e_tracker_prd < update_qc_panels_table.sql
Adding Fe55 analyzed data
From the panel QC Fe55 analysis script, we get either csv files named like mn269_ch0_r3_delta.csv and mn269_ch1_r3_delta.csv (for cramp type 1) or a file named like mn269_r3_delta.csv (for cramp type 2). The data contained in either case can be put into the database like so:
For cramp type 1:
cd TrackerHardwareDB/python python3 create_update_maxerf_risetime.py ../data/mn269_ch0_r3_delta.csv ../data/mn269_ch1_r3_delta.csv psql -h ifdb08 -p 5459 mu2e_tracker_prd < update_maxerf_risetime.sql
For cramp type 2:
cd TrackerHardwareDB/python python3 create_update_maxerf_risetime.py ../data/mn269_r3_delta.csv psql -h ifdb08 -p 5459 mu2e_tracker_prd < update_maxerf_risetime.sql
The python script has some internel checks to make sure there are the correct number of channels and no duplicate channel numbers
Adding Fe55 plots
These are just stored in the repository so to add these do:
cd TrackerHardwareDB/panel-qc-viewer/public/images/hv_data/ cp /path/to/images/mn*.png . git add *.png git commit -m "Adding hv data plots" git push
Then for other people to see the new images, they will need to pull in the updates.