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Tyler Boone, 11/19/2018 06:01 PM

Standalone Bern Readout Instructions

Getting ready to run the code

In order to run the readout code, you first need to run the up-to-date febdrv software. Therefore, make sure your sbnddaq-readout repository is up to date. Under sbnddaq-readout/projects/bern/, you should find the three relevant files to running the febdrv software. Make sure you run the 'makeall' script so that all the other scripts are properly made, then you can begin.

Febdrv, febconf, and febctl


For each board chain that you want to run, you need a terminal that is running febdrv. febdrv requires three arguments. The first is the name of the ethernet port that the board is hooked up to. The second is the minimum polling time that the software should use to ask the front end board for data. The third is the first of four local TCP socket numbers to be used by the software to listen, publish, and give statistics/binary statistics on the data. For example, the input:

./febdrv enp4s0 300 5555

tells febdrv to connect to the board hooked up to the ethernet socket with the name enp4s0, to use a 300 ms poll time with that board chain, and to set the responder, publisher, statistics, and binary statistics ZeroMQ sockets to tcp://localhost:5555, tcp://localhost:5556, tcp://localhost:5557, and tcp://localhost:5558 respectively. Once correctly initialized, the terminal running febdrv should display a confirmation that the board(s) on the chain are connected, along with their MAC5 addresses. The MAC5 addresses of the boards are important, as they are needed to use febconf and febctl. Below is an example of terminal output when running febdrv, the line most helpful for the next sections is the one that says 'Newly connected FEB...'.


febconf requires an instance of febdrv to communicate with, along with 3-4 arguments that specify which TCP port to connect to (i.e. the port specified for the given instance of febdrv you wish to communicate with, written as tcp://localhost:####), two configuration files (which should be in your CONF/ directory in projects/bern/), and what it calls the 'FEB S/N', which is the last bit of the given mac5 address by febdrv, converted from hex in the febdrv output to decimal for febconf's (and, later, febctl's) input. If a given mac5 is not given, it will broadcast for all mac5 addresses on the chain, so if all boards need the same config, then no need to enter an address. Below is an example of what the script will tell you to enter if your code is compiled correctly.

Note: sometimes febconf can be finicky, so if you're using correct syntax but getting an error from febdrv, try switching to a different config file first and then back to the one you want. If that doesn't work, also try doing a DAQ_BEG command with febctl (described below), and then a DAQ_END, then running febconf with the files you want.


febctl requires 2-3 arguments, as well as an active instance of febdrv to communicate with. The first argument requires is the first TCP port being used by the instance of febdrv you wish to communicate to (just like in febconf). The second is the command you want to use. See the below image for a list of available commands, as well as the output of febctl when not given any arguments:

DAQ_BEG and DAQ_END begin and end the data collection process, respectively. You should make sure that the board is in a DAQ_END state when doing hardware changes with the boards, or changing the configuration with febconf. The BIAS_ON and BIAS_OFF commands turn the bias voltage of the boards on and off, i.e. the voltages between the signal and bias pins on the front end board. It is crucial that you not have the board in a state of BIAS_ON unless it has a SiPM board that is not in danger of being flashed with a lot of light, or if an electrical bridge is between the pins, and generally whenever you're not explicitly taking data with SiPMs. Once the board is in a state of DAQ_BEG, you can begin to use the analysis code.

The Analysis Code

The analysis code can be found in my (Tyler Boone's) personal sbn account, under the name '', in the directory /home/nfs/tboone/data_repository/. The compilation instructions can be found in the file named 'new_code_compilation_line.txt' in the same directory. Please contact me () if you have any issues accessing it. Running the code is fairly straightforward: once you have the code compiled, run the output file with three arguments. The first is the number of the publisher TCP socket being used by the instance of febdrv you wish to communicate with. That means if the specified tcp range is 5555-5558, you should specify 5556 (don't use tcp://localhost:, my code assumes this is what is being used, you only need the four digit number). The second is the number of events you'd like to collect. The third is the mac5 of the board you wish to take data from. This last argument is less to specify for the networking code than it is to filter out 'garbage' events given by the FEB, reducing file size.

Looking at your ROOT file

Once you've run the analysis code and it's collected the events it was asked to, you should have a ROOT file called myfile_port_####.root that will have the following data in a TTree: