NFOUR=1024

EXPONENT=21
NNU=300 // number of neutrino events
NNU_PASSED=10 // number of neutrino events that are allowed to pass the trigger
ONLY_PASSED_EVENTS=0 // 0 (default): AraSim throws NNU events whether or not they pass; 1: AraSim throws events until the number of events that pass the trigger is equal to NNU_PASSED (WARNING: may cause long run times if reasonable values are not chosen)
NOISE_WAVEFORM_GENERATE_MODE=0 // generate new noise waveforms for each events
NOISE_EVENTS=16 // number of pure noise waveforms
TRIG_ANALYSIS_MODE=0 // 0 = signal + noise, 1 = signal only, 2 = noise only
DETECTOR=1 // ARA stations 1 to 7
NOFZ=1
core_x=10000
core_y=10000

TIMESTEP=5.E-10 // value for 2GHz actual station value
TRIG_WINDOW=1.E-7 // 100ns which is actual testbed trig window
POWERTHRESHOLD=-6.06 // 100Hz global trig rate for 3 out of 16 ARA stations

POSNU_RADIUS=3000
V_MIMIC_MODE=0 // 0 : global trig is located center of readout windows
DATA_SAVE_MODE=0 // 2 : don't save any waveform informations at all
DATA_LIKE_OUTPUT=0 // 0 : don't save any waveform information to eventTree
BORE_HOLE_ANTENNA_LAYOUT=0
SECONDARIES=0

TRIG_ONLY_BH_ON=0
CALPULSER_ON=0
USE_MANUAL_GAINOFFSET=0
USE_TESTBED_RFCM_ON=0
NOISE_TEMP_MODE=0
TRIG_THRES_MODE=0
READGEOM=0 // reads geometry information from the sqlite file or not (0 : don't read)

TRIG_MODE=0 // use vpol, hpol separated trigger mode. by default N_TRIG_V=3, N_TRIG_H=3. You can change this values

number_of_stations=1
core_x=10000
core_y=10000

DETECTOR=1
DETECTOR_STATION=2
DATA_LIKE_OUTPUT=0

NOISE_WAVEFORM_GENERATE_MODE=0 // generates new waveforms for every event
NOISE=0 //flat thermal noise
NOISE_CHANNEL_MODE=0 //using different noise temperature for each channel
NOISE_EVENTS=16 // number of noise events which will be store in the trigger class for later use

ANTENNA_MODE=1
APPLY_NOISE_FIGURE=0