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Stephen A. Wood authoredStephen A. Wood authored
sdebug.param 4.45 KiB
; sos tracking code debug flags.
; when these flags are non-zero, dump routines are called to
; print out the data banks for each event.
;
; sluno fortran lun for output
sluno = 6
; sdebugdumptof Dump timing information for fitting offsets for old CSA method
sdebugdumptof = 0
; sdumptof Dump timing information for fitting offsets, new way
; Done from h_tof.f. Add particle ID cuts if desired
; Note: don't set both hdumptof=1 and hdebugdumptof=1 at same time
; because they both use fort.37 for the output
sdumptof = 0
;; sdebugdumpcal Dump calorimeter information for fitting gains
sdebugdumpcal = 0
; number of pedestal events required to overwrite orig. peds.
shodo_min_peds = 500
scal_min_peds = 500
scer_min_peds = 500
saer_min_peds = 500
sluc_min_peds = 500
; DEBUGGING OUTPUT FLAGS
; ----------------------
; sdebugprintrawdc Dump SDC_RAW_DC bank
sdebugprintrawdc = 0
; sdebugprintdecodeddc DUMP SDC_DECODED_DC bank
sdebugprintdecodeddc = 0
; sdebugflagpsi Dump calculated coordinate positions
sdebugflagpsi = 0
; sdebugflaggeoemtry Dump calculated geometrical parameters
sdebugflaggeometry = 0
; sdebugflagpr Dump intermediate pattern recognition results
sdebugflagpr = 0
; sdebugflagstubchisq Dump chi2 of left-right fits
sdebugstubchisq = 0
; sdebugflagstubs Dump stub fit results
sdebugflagstubs = 0
; sdebuglinkstubs Dump link stub results
sdebuglinkstubs = 0
; sdebugtrackprint Dump focal plane track fit results
sdebugtrackprint = 0
; sdebugtartrackprint Dump tracks at target
sdebugtartrackprint = 0
; tof debuging
;
; sdebugprintscinraw Dump SOS_RAW_SCIN
sdebugprintscinraw = 0
; sdebugprintscindec Dump SOS_DECODED_SCIN
sdebugprintscindec = 0
; sdebugprinttoftracks Dump sos_scin_tof
sdebugprinttoftracks = 0
; sdebugprinttracktests Dump SOS_TRACK_TESTS
sdebugprinttracktests = 0
;
;
; sos calorimeter debug flags
; slun_dbg_cal lun for output
slun_dbg_cal = sluno
; sdbg_raw_cal call s_prt_cal_raw
sdbg_raw_cal = 0
; sdbg_sparsified_cal call s_prt_cal_sparsified
sdbg_sparsified_cal = 0
; sdbg_decoded_cal call s_prt_cal_decoded
sdbg_decoded_cal = 0
; sdbg_clusters_cal call s_prt_cal_clusters
sdbg_clusters_cal = 0
; sdbg_tracks_cal call s_prt_cal_tracks
sdbg_tracks_cal = 0; sdbg_tests_cal call s_prt_cal_tests SOS_TRACK_TESTS
sdbg_tests_cal = 0
;
; hard wired histograms. If these flags .ne. 0 then the histogram
; blocks are filled
;
; sturnon_scin_raw_hist Histogram SOS raw hodoscope data (all blocks)
sturnon_scin_raw_hist = 1
; sturnon_decoded_dc_hist Histogram SOS_DECODED_DC
sturnon_decoded_dc_hist = 1
; sturnon_focal_plane_hist Histogram SOS_FOCAL_PLANE
sturnon_focal_plane_hist = 1
; sturnon_target_hist HISTOGRAM SOS_TARGET
sturnon_target_hist = 1
;
; Bypass paramters to bypass code elementes in s_reconstruction
; Stored in sosbypass_switches.cmn
; Code element is bypassed if switch .ne. 0
; sbypass_trans_dc bypass s_trans_dc
sbypass_trans_dc = 0
; sbypass_track bypass s_track
sbypass_track = 0
; sbypass_targ_trans bypass s_targ_trans
sbypass_targ_trans = 0
; sbypass_dc_eff bypass s_dc_eff and s_dc_eff_shutdown
sbypass_dc_eff = 0
; sbypass_track_eff bypass s_tracking efficiency code
sbypass_track_eff = 0
; sbypass_track_eff_files bypass s_tracking efficiency output files
sbypass_track_eff_files = 1
; sbypass_trans_scin bypass s_trans_scin
sbypass_trans_scin = 0
; sbypass_tof bypass s_tof
sbypass_tof = 0
; sbypass_scin_eff bypass s_scin_eff and s_scin_eff_shutdown
sbypass_scin_eff = 0
; sbypass_trans_cer bypass s_trans_cer
sbypass_trans_cer = 0
; sbypass_cer bypass s_cer, (a dummy routine)
sbypass_cer = 1
; sbypass_cer_eff bypass s_cer_eff and s_cer_eff_shutdown
sbypass_cer_eff = 0
; sbypass_aero bypass s_aero
sbypass_aero = 0
; sbypass_trans_cal bypass s_trans_cal
sbypass_trans_cal = 0
; sbypass_cal bypass s_cal
sbypass_cal = 0
; sbypass_cal_eff bypass s_cal_eff and s_cal_eff_shutdown
sbypass_cal_eff = 0
; sbypass_physics bypass s_physics
sbypass_physics = 0