diff --git a/DEF-files/SHMS/PRODUCTION/pstackana_production.def b/DEF-files/SHMS/PRODUCTION/pstackana_production.def
index af1205ff4b005dc0e7bef015540798917acb2668..f7fa43ec00d19b52f530c3edbe454589b0969dd3 100644
--- a/DEF-files/SHMS/PRODUCTION/pstackana_production.def
+++ b/DEF-files/SHMS/PRODUCTION/pstackana_production.def
@@ -1,715 +1,11 @@
-
-
-#********************
-# Block Definitions *
-#********************
-
-block T.shms.*
-block P.ngcer.*
-block P.dc.*
-block P.tr.*
-block P.hod.*
-block P.hgcer.*
-block P.aero.*
-block P.cal.*
-block P.gtr.*
-block P.kin.*
-block P.rb.*
-
-
-#**********************
-# Noble Gas Cherenkov *
-#**********************
-
-#------------------------------------------
-# SHMS NGC GOOD Occupancy and Multiplicity
-#------------------------------------------
-
-TH1F pngcer_good_occ 'SHMS Noble Gas Cherenkov Good Occupancy; PMT Number; Number of Good ADC Hits' P.ngcer.numGoodAdcHits 4 0.5 4.5
-TH1F pngcer_good_mult 'SHMS Noble Gas Cherenkov Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.ngcer.totNumGoodAdcHits 4 0.5 4.5
-
-#-------------------------------------------------------------------------------
-# SHMS NGC GOOD Pulse Pedestal / Integral / Raw Integral / Amplitude / Time
-# GOOD --> (passed errorFlag cut and pulsetime cuts oN Min/Max ADC Time Window)
-#-------------------------------------------------------------------------------
-
-TH2F pngcer_good_pped_vs_pmt 'SHMS Noble Gas Cherenkov Good Pulse Pedestal vs. PMT Number; PMT Number; Pulse Pedestal / 1 ADC Units' [I+1] P.ngcer.goodAdcPed 4 0.5 4.5 400 300 700
-TH2F pngcer_good_pi_vs_pmt 'SHMS Noble Gas Cherenkov Good Pulse Integral vs. PMT Number; PMT Number; Pulse Integral / 50 ADC Units' [I+1] P.ngcer.goodAdcPulseInt 4 0.5 4.5 600 0 30000 P.ngcer.goodAdcPulseInt>0.0
-TH2F pngcer_good_pamp_vs_pmt 'SHMS Noble Gas Cherenkov Good Pulse Amplitude vs. PMT Number; PMT Number; Pulse Amplitude / 20 ADC Units' [I+1] P.ngcer.goodAdcPulseAmp 4 0.5 4.5 200 0 4000 P.ngcer.goodAdcPulseAmp>0.0
-TH2F pngcer_good_ptime_vs_pmt 'SHMS Noble Gas Cherenkov Good Pulse Time vs. PMT Number; PMT Number; Pulse Time / 10 ADC Units' [I+1] P.ngcer.goodAdcPulseTime 4 0.5 4.5 350 0 3500 P.ngcer.goodAdcPulseTime>0.0
-
-#-------------------------------
-# SHMS NGC Number of P.E. / PMT
-#-------------------------------
-
-TH2F pngcer_npe 'SHMS Noble Gas Cherenkov Number of Photoelectrons vs. PMT Number; PMT Number; Number of Photoelectrons / PMT' [I+1] P.ngcer.npe 4 0.5 4.5 200 0 100 P.ngcer.npe>0.0
-
-#-------------------------------
-# SHMS NGC TOTAL NUMBER OF P.E.
-#-------------------------------
-
-TH1F pngcer_tot_npe 'SHMS Noble Gas Cherenkov Total Number of Photoelectrons; Total Number of Photoelectrons; Number of Entries / 0.5 Photoelectrons' P.ngcer.npeSum 200 0 100 P.ngcer.npeSum>0.0
-
-#--------------------------
-# SHMS NGC TRACK MATCHING
-#--------------------------
-
-sTH1F pngcer_trk_match 'SHMS Noble Gas Cherenkov Tracks Matches; PMT Number; Number of Tracks Matched' P.ngcer.numTracksMatched 4 0.5 4.5
-sTH1F pngcer_trk_fired 'SHMS Noble Gas Cherenkov Tracks Fired; PMT Number; Number of Tracks Fired' P.ngcer.numTracksFired 4 0.5 4.5
-
-#*****************
-# Drift Chambers *
-#*****************
-
-#------------------
-# SHMS DC WIRE MAP
-#------------------
-
-TH1F pdc1u1_wirenum 'SHMS DC 1U1 Wiremap; Wire Number; Number of Entries' P.dc.1u1.wirenum 107 0.5 107.5
-TH1F pdc1u2_wirenum 'SHMS DC 1U2 Wiremap; Wire Number; Number of Entries' P.dc.1u2.wirenum 107 0.5 107.5
-TH1F pdc1x1_wirenum 'SHMS DC 1X1 Wiremap; Wire Number; Number of Entries' P.dc.1x1.wirenum 79 0.5 79.5
-TH1F pdc1x2_wirenum 'SHMS DC 1X2 Wiremap; Wire Number; Number of Entries' P.dc.1x2.wirenum 79 0.5 79.5
-TH1F pdc1v1_wirenum 'SHMS DC 1V1 Wiremap; Wire Number; Number of Entries' P.dc.1v1.wirenum 107 0.5 107.5
-TH1F pdc1v2_wirenum 'SHMS DC 1V2 Wiremap; Wire Number; Number of Entries' P.dc.1v2.wirenum 107 0.5 107.5
-
-TH1F pdc2v2_wirenum 'SHMS DC 2V2 Wiremap; Wire Number; Number of Entries' P.dc.2v2.wirenum 107 0.5 107.5
-TH1F pdc2v1_wirenum 'SHMS DC 2V1 Wiremap; Wire Number; Number of Entries' P.dc.2v1.wirenum 107 0.5 107.5
-TH1F pdc2x2_wirenum 'SHMS DC 2X2 Wiremap; Wire Number; Number of Entries' P.dc.2x2.wirenum 79 0.5 79.5
-TH1F pdc2x1_wirenum 'SHMS DC 2X1 Wiremap; Wire Number; Number of Entries' P.dc.2x1.wirenum 79 0.5 79.5
-TH1F pdc2u2_wirenum 'SHMS DC 2U2 Wiremap; Wire Number; Number of Entries' P.dc.2u2.wirenum 107 0.5 107.5
-TH1F pdc2u1_wirenum 'SHMS DC 2U1 Wiremap; Wire Number; Number of Entries' P.dc.2u1.wirenum 107 0.5 107.5
-
-#------------------------------
-# SHMS DC DRIFT TIME PER PLANE
-#------------------------------
-
-TH1F pdc1u1_drifttime 'SHMS DC 1U1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.1u1.time 400 -50 350
-TH1F pdc1u2_drifttime 'SHMS DC 1U2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.1u2.time 400 -50 350
-TH1F pdc1x1_drifttime 'SHMS DC 1X1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.1x1.time 400 -50 350
-TH1F pdc1x2_drifttime 'SHMS DC 1X2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.1x2.time 400 -50 350
-TH1F pdc1v1_drifttime 'SHMS DC 1V1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.1v1.time 400 -50 350
-TH1F pdc1v2_drifttime 'SHMS DC 1V2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.1v2.time 400 -50 350
-
-TH1F pdc2v2_drifttime 'SHMS DC 2V2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.2v2.time 400 -50 350
-TH1F pdc2v1_drifttime 'SHMS DC 2V1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.2v1.time 400 -50 350
-TH1F pdc2x2_drifttime 'SHMS DC 2X2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.2x2.time 400 -50 350
-TH1F pdc2x1_drifttime 'SHMS DC 2X1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.2x1.time 400 -50 350
-TH1F pdc2u2_drifttime 'SHMS DC 2U2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.2u2.time 400 -50 350
-TH1F pdc2u1_drifttime 'SHMS DC 2U1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' P.dc.2u1.time 400 -50 350
-
-#----------------------------------
-# SHMS DC DRIFT TIME VS. WIRENUMBER
-#----------------------------------
-
-TH2F pdc1u1_drifttime_vs_wirenum 'SHMS DC 1U1Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.1u1.wirenum P.dc.1u1.time 107 0.5 107.5 500 0 500
-TH2F pdc1u2_drifttime_vs_wirenum 'SHMS DC 1U2Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.1u2.wirenum P.dc.1u2.time 107 0.5 107.5 500 0 500
-TH2F pdc1x1_drifttime_vs_wirenum 'SHMS DC 1X1Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.1x1.wirenum P.dc.1x1.time 79 0.5 79.5 500 0 500
-TH2F pdc1x2_drifttime_vs_wirenum 'SHMS DC 1X2Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.1x2.wirenum P.dc.1x2.time 79 0.5 79.5 500 0 500
-TH2F pdc1v1_drifttime_vs_wirenum 'SHMS DC 1V1Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.1v1.wirenum P.dc.1v1.time 107 0.5 107.5 500 0 500
-TH2F pdc1v2_drifttime_vs_wirenum 'SHMS DC 1V2Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.1v2.wirenum P.dc.1v2.time 107 0.5 107.5 500 0 500
-
-TH2F pdc2v2_drifttime_vs_wirenum 'SHMS DC 2V2Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.2v2.wirenum P.dc.2v2.time 107 0.5 107.5 500 0 500
-TH2F pdc2v1_drifttime_vs_wirenum 'SHMS DC 2V1Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.2v1.wirenum P.dc.2v1.time 107 0.5 107.5 500 0 500
-TH2F pdc2x2_drifttime_vs_wirenum 'SHMS DC 2X2Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.2x2.wirenum P.dc.2x2.time 79 0.5 79.5 500 0 500
-TH2F pdc2x1_drifttime_vs_wirenum 'SHMS DC 2X1Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.2x1.wirenum P.dc.2x1.time 79 0.5 79.5 500 0 500
-TH2F pdc2u2_drifttime_vs_wirenum 'SHMS DC 2U2Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.2u2.wirenum P.dc.2u2.time 107 0.5 107.5 500 0 500
-TH2F pdc2u1_drifttime_vs_wirenum 'SHMS DC 2U1Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' P.dc.2u1.wirenum P.dc.2u1.time 107 0.5 107.5 500 0 500
-
-#----------------------------------
-# SHMS DC Drift Distance Per Plane
-#----------------------------------
-
-TH1F pdc1u1_ddist 'SHMS 1U1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1u1.dist 50 -0.1 0.6
-TH1F pdc1u1_ddist_cut 'SHMS 1U1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1u1.dist 50 -0.1 0.6 time_cut1
-
-TH1F pdc1u2_ddist 'SHMS 1U2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1u2.dist 50 -0.1 0.6
-TH1F pdc1u2_ddist_cut 'SHMS 1U2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1u2.dist 50 -0.1 0.6 time_cut2
-
-TH1F pdc1x1_ddist 'SHMS 1X1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1x1.dist 50 -0.1 0.6
-TH1F pdc1x1_ddist_cut 'SHMS 1X1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1x1.dist 50 -0.1 0.6 time_cut3
-
-TH1F pdc1x2_ddist 'SHMS 1X2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1x2.dist 50 -0.1 0.6
-TH1F pdc1x2_ddist_cut 'SHMS 1X2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1x2.dist 50 -0.1 0.6 time_cut4
-
-TH1F pdc1v1_ddist 'SHMS 1V1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1v1.dist 50 -0.1 0.6
-TH1F pdc1v1_ddist_cut 'SHMS 1V1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1v1.dist 50 -0.1 0.6 time_cut5
-
-TH1F pdc1v2_ddist 'SHMS 1V2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1v2.dist 50 -0.1 0.6
-TH1F pdc1v2_ddist_cut 'SHMS 1V2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.1v2.dist 50 -0.1 0.6 time_cut6
-
-TH1F pdc2v2_ddist 'SHMS 2V2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2v2.dist 50 -0.1 0.6
-TH1F pdc2v2_ddist_cut 'SHMS 2V2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2v2.dist 50 -0.1 0.6 time_cut7
-
-TH1F pdc2v1_ddist 'SHMS 2V1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2v1.dist 50 -0.1 0.6
-TH1F pdc2v1_ddist_cut 'SHMS 2V1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2v1.dist 50 -0.1 0.6 time_cut8
-
-TH1F pdc2x2_ddist 'SHMS 2X2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2x2.dist 50 -0.1 0.6
-TH1F pdc2x2_ddist_cut 'SHMS 2X2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2x2.dist 50 -0.1 0.6 time_cut9
-
-TH1F pdc2x1_ddist 'SHMS 2X1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2x1.dist 50 -0.1 0.6
-TH1F pdc2x1_ddist_cut 'SHMS 2X1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2x1.dist 50 -0.1 0.6 time_cut10
-
-TH1F pdc2u2_ddist 'SHMS 2U2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2u2.dist 50 -0.1 0.6
-TH1F pdc2u2_ddist_cut 'SHMS 2U2 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2u2.dist 50 -0.1 0.6 time_cut11
-
-TH1F pdc2u1_ddist 'SHMS 2U1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2u1.dist 50 -0.1 0.6
-TH1F pdc2u1_ddist_cut 'SHMS 2U1 Drift Distance; Drift Distance (cm); Number of Entries' P.dc.2u1.dist 50 -0.1 0.6 time_cut12
-
-#----------------------------------------
-# SHMS DC Drift Distance vs. Wire number
-#----------------------------------------
-
-TH2F pdc1u1_wirenum_vs_ddist 'SHMS 1U1 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.1u1.wirenum P.dc.1u1.dist 107 0.5 107.5 300 -0.1 0.6
-TH2F pdc1u2_wirenum_vs_ddist 'SHMS 1U2 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.1u2.wirenum P.dc.1u2.dist 107 0.5 107.5 300 -0.1 0.6
-TH2F pdc1x1_wirenum_vs_ddist 'SHMS 1X1 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.1x1.wirenum P.dc.1x1.dist 79 0.5 79.5 300 -0.1 0.6
-TH2F pdc1x2_wirenum_vs_ddist 'SHMS 1X2 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.1x2.wirenum P.dc.1x2.dist 79 0.5 79.5 300 -0.1 0.6
-TH2F pdc1v1_wirenum_vs_ddist 'SHMS 1V1 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.1v1.wirenum P.dc.1v1.dist 107 0.5 107.5 300 -0.1 0.6
-TH2F pdc1v2_wirenum_vs_ddist 'SHMS 1V2 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.1v2.wirenum P.dc.1v2.dist 107 0.5 107.5 300 -0.1 0.6
-
-TH2F pdc2u2_wirenum_vs_ddist 'SHMS 2U2 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.2u2.wirenum P.dc.2u2.dist 107 0.5 107.5 300 -0.1 0.6
-TH2F pdc2u1_wirenum_vs_ddist 'SHMS 2U1 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.2u1.wirenum P.dc.2u1.dist 107 0.5 107.5 300 -0.1 0.6
-TH2F pdc2x2_wirenum_vs_ddist 'SHMS 2X2 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.2x2.wirenum P.dc.2x2.dist 79 0.5 79.5 300 -0.1 0.6
-TH2F pdc2x1_wirenum_vs_ddist 'SHMS 2X1 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.2x1.wirenum P.dc.2x1.dist 79 0.5 79.5 300 -0.1 0.6
-TH2F pdc2v2_wirenum_vs_ddist 'SHMS 2V2 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.2v2.wirenum P.dc.2v2.dist 107 0.5 107.5 300 -0.1 0.6
-TH2F pdc2v1_wirenum_vs_ddist 'SHMS 2V1 Wiremap vs. Drift Distance; Wire Number; Drift Distance (cm)' P.dc.2v1.wirenum P.dc.2v1.dist 107 0.5 107.5 300 -0.1 0.6
-
-#-----------------------------
-# SHMS DC RESIDUALS PER PLANE
-#-----------------------------
-
-TH1F pdc1u1_residuals 'SHMS 1U1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[0] 200 -1.0 1.0
-TH1F pdc1u2_residuals 'SHMS 1U2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[1] 200 -1.0 1.0
-TH1F pdc1x1_residuals 'SHMS 1X1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[2] 200 -1.0 1.0
-TH1F pdc1x2_residuals 'SHMS 1X2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[3] 200 -1.0 1.0
-TH1F pdc1v1_residuals 'SHMS 1V1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[4] 200 -1.0 1.0
-TH1F pdc1v2_residuals 'SHMS 1V2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[5] 200 -1.0 1.0
-
-TH1F pdc2v2_residuals 'SHMS 2V2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[6] 200 -1.0 1.0
-TH1F pdc2v1_residuals 'SHMS 2V1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[7] 200 -1.0 1.0
-TH1F pdc2x2_residuals 'SHMS 2X2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[8] 200 -1.0 1.0
-TH1F pdc2x1_residuals 'SHMS 2X1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[9] 200 -1.0 1.0
-TH1F pdc2u2_residuals 'SHMS 2U2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[10] 200 -1.0 1.0
-TH1F pdc2u1_residuals 'SHMS 2U1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' P.dc.residual[11] 200 -1.0 1.0
-
-#-----------------------------------
-# SHMS DC RESIDUALS vs. Wire Number
-#-----------------------------------
-
-TH2F pdc1u1_residuals_vs_wirenum 'SHMS 1U1 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.1u1.wirenum P.dc.residual[0] 107 0.5 107.5 200 -1.0 1.0
-TH2F pdc1u2_residuals_vs_wirenum 'SHMS 1U2 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.1u2.wirenum P.dc.residual[1] 107 0.5 107.5 200 -1.0 1.0
-TH2F pdc1x1_residuals_vs_wirenum 'SHMS 1X1 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.1x1.wirenum P.dc.residual[2] 79 0.5 79.5 200 -1.0 1.0
-TH2F pdc1x2_residuals_vs_wirenum 'SHMS 1X2 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.1x2.wirenum P.dc.residual[3] 79 0.5 79.5 200 -1.0 1.0
-TH2F pdc1v1_residuals_vs_wirenum 'SHMS 1V1 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.1v1.wirenum P.dc.residual[4] 107 0.5 107.5 200 -1.0 1.0
-TH2F pdc1v2_residuals_vs_wirenum 'SHMS 1V2 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.1v2.wirenum P.dc.residual[5] 107 0.5 107.5 200 -1.0 1.0
-
-TH2F pdc2v2_residuals_vs_wirenum 'SHMS 2V2 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.2v2.wirenum P.dc.residual[6] 107 0.5 107.5 200 -1.0 1.0
-TH2F pdc2v1_residuals_vs_wirenum 'SHMS 2V1 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.2v1.wirenum P.dc.residual[7] 107 0.5 107.5 200 -1.0 1.0
-TH2F pdc2x2_residuals_vs_wirenum 'SHMS 2X2 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.2x2.wirenum P.dc.residual[8] 79 0.5 79.5 200 -1.0 1.0
-TH2F pdc2x1_residuals_vs_wirenum 'SHMS 2X1 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.2x1.wirenum P.dc.residual[9] 79 0.5 79.5 200 -1.0 1.0
-TH2F pdc2u2_residuals_vs_wirenum 'SHMS 2U2 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.2u2.wirenum P.dc.residual[10] 107 0.5 107.5 200 -1.0 1.0
-TH2F pdc2u1_residuals_vs_wirenum 'SHMS 2U1 DC Residuals vs. Wire Number; Wire Number; Residuals (cm)' P.dc.2u1.wirenum P.dc.residual[11] 107 0.5 107.5 200 -1.0 1.0
-
-#-------------------------------------------
-# SHMS DC TRACKING VARIABLES AT FOCAL PLANE
-#-------------------------------------------
-
-TH1F pdc_trk_mom 'SHMS DC Track Momentum; P (GeV); Number of Entires / 10 MeV' P.tr.p 600 0 6
-TH1F pdc_trk_beta 'SHMS DC Track Beta; Beta (GeV); Number of Entires' P.tr.beta 300 -1.5 1.5
-TH2F pdc_xfp_vs_yxp 'SHMS DC X_{fp} vs Y_{fp}; Y_{fp} (cm) / 1 cm; X_{fp} (cm) / 1 cm' P.dc.y_fp P.dc.x_fp 100 -50 50 100 -50 50
-TH2F pdc_xpfp_vs_ypfp 'SHMS DC X'_{fp} vs Y'_{fp}; Y'_{fp} / 0.002 rad; X'_{fp} / 0.002 rad' P.dc.yp_fp P.dc.xp_fp 100 -.1 .1 100 -.1 .1
-TH2F pdc_xfp_vs_ypfp 'SHMS DC X_{fp} vs Y'_{fp}; Y'_{fp} / 0.002 rad; X_{fp} / 1 cm' P.dc.yp_fp P.dc.x_fp 100 -.1 .1 100 -50 50
-TH2F pdc_xfp_vs_xpfp 'SHMS DC X_{fp} vs X'_{fp}; X'_{fp} / 0.002 rad; X_{fp} / 1 cm' P.dc.xp_fp P.dc.x_fp 100 -.1 .1 100 -50 50
-
-#*****************
-# SHMS HODOSCOPES
-#*****************
-
-#-----------------------------------
-# SHMS HODO GOOD ADC Multiplicities
-#-----------------------------------
-
-TH1F phodo_1x_good_adc_mult_pos 'SHMS 1X+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' P.hod.1x.totNumGoodPosAdcHits 13 0.5 13.5
-TH1F phodo_1y_good_adc_mult_pos 'SHMS 1Y+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' P.hod.1y.totNumGoodPosAdcHits 13 0.5 13.5
-TH1F phodo_2x_good_adc_mult_pos 'SHMS 2X+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' P.hod.2x.totNumGoodPosAdcHits 14 0.5 14.5
-TH1F phodo_2y_good_adc_mult_pos 'SHMS 2Y+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' P.hod.2y.totNumGoodPosAdcHits 21 0.5 21.5
-
-TH1F phodo_1x_good_adc_mult_neg 'SHMS 1X- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' P.hod.1x.totNumGoodNegAdcHits 13 0.5 13.5
-TH1F phodo_1y_good_adc_mult_neg 'SHMS 1Y- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' P.hod.1y.totNumGoodNegAdcHits 13 0.5 13.5
-TH1F phodo_2x_good_adc_mult_neg 'SHMS 2X- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' P.hod.2x.totNumGoodNegAdcHits 14 0.5 14.5
-TH1F phodo_2y_good_adc_mult_neg 'SHMS 2Y- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' P.hod.2y.totNumGoodNegAdcHits 21 0.5 21.5
-
-TH1F phodo_1x_good_adc_mult 'SHMS 1X Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.hod.1x.totNumGoodAdcHits 13 0.5 13.5
-TH1F phodo_1y_good_adc_mult 'SHMS 1Y Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.hod.1y.totNumGoodAdcHits 13 0.5 13.5
-TH1F phodo_2x_good_adc_mult 'SHMS 2X Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.hod.2x.totNumGoodAdcHits 14 0.5 14.5
-TH1F phodo_2y_good_adc_mult 'SHMS 2Y Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.hod.2y.totNumGoodAdcHits 21 0.5 21.5
-
-#-----------------------------------
-# SHMS HODO Good TDC Multiplicities
-#-----------------------------------
-
-TH1F phodo_1x_good_tdc_mult_pos 'SHMS 1X+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' P.hod.1x.totNumGoodPosTdcHits 13 0.5 13.5
-TH1F phodo_1y_good_tdc_mult_pos 'SHMS 1Y+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' P.hod.1y.totNumGoodPosTdcHits 13 0.5 13.5
-TH1F phodo_2x_good_tdc_mult_pos 'SHMS 2X+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' P.hod.2x.totNumGoodPosTdcHits 14 0.5 14.5
-TH1F phodo_2y_good_tdc_mult_pos 'SHMS 2Y+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' P.hod.2y.totNumGoodPosTdcHits 21 0.5 21.5
-
-TH1F phodo_1x_good_tdc_mult_neg 'SHMS 1X- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' P.hod.1x.totNumGoodNegTdcHits 13 0.5 13.5
-TH1F phodo_1y_good_tdc_mult_neg 'SHMS 1Y- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' P.hod.1y.totNumGoodNegTdcHits 13 0.5 13.5
-TH1F phodo_2x_good_tdc_mult_neg 'SHMS 2X- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' P.hod.2x.totNumGoodNegTdcHits 14 0.5 14.5
-TH1F phodo_2y_good_tdc_mult_neg 'SHMS 2Y- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' P.hod.2y.totNumGoodNegTdcHits 21 0.5 21.5
-
-TH1F phodo_1x_good_tdc_mult 'SHMS 1X Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' P.hod.1x.totNumGoodTdcHits 13 0.5 13.5
-TH1F phodo_1y_good_tdc_mult 'SHMS 1Y Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' P.hod.1y.totNumGoodTdcHits 13 0.5 13.5
-TH1F phodo_2x_good_tdc_mult 'SHMS 2X Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' P.hod.2x.totNumGoodTdcHits 14 0.5 14.5
-TH1F phodo_2y_good_tdc_mult 'SHMS 2Y Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' P.hod.2y.totNumGoodTdcHits 21 0.5 21.5
-
-#---------------------------------
-# SHMS HODO GOOD ADC OCCUPANCIES
-#---------------------------------
-
-TH1F phodo_1x_good_adc_occ_pos 'SHMS 1X+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' P.hod.1x.numGoodPosAdcHits 13 0.5 13.5
-TH1F phodo_1y_good_adc_occ_pos 'SHMS 1Y+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' P.hod.1y.numGoodPosAdcHits 13 0.5 13.5
-TH1F phodo_2x_good_adc_occ_pos 'SHMS 2X+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' P.hod.2x.numGoodPosAdcHits 14 0.5 14.5
-TH1F phodo_2y_good_adc_occ_pos 'SHMS 2Y+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' P.hod.2y.numGoodPosAdcHits 21 0.5 21.5
-
-TH1F phodo_1x_good_adc_occ_neg 'SHMS 1X- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' P.hod.1x.numGoodNegAdcHits 13 0.5 13.5
-TH1F phodo_1y_good_adc_occ_neg 'SHMS 1Y- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' P.hod.1y.numGoodNegAdcHits 13 0.5 13.5
-TH1F phodo_2x_good_adc_occ_neg 'SHMS 2X- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' P.hod.2x.numGoodNegAdcHits 14 0.5 14.5
-TH1F phodo_2y_good_adc_occ_neg 'SHMS 2Y- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' P.hod.2y.numGoodNegAdcHits 21 0.5 21.5
-
-#--------------------------------
-# SHMS HODO GOOD TDC OCCUPANCIES
-#--------------------------------
-
-TH1F phodo_1x_good_tdc_occ_pos 'SHMS 1X+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' P.hod.1x.numGoodPosTdcHits 13 0.5 13.5
-TH1F phodo_1y_good_tdc_occ_pos 'SHMS 1Y+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' P.hod.1y.numGoodPosTdcHits 13 0.5 13.5
-TH1F phodo_2x_good_tdc_occ_pos 'SHMS 2X+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' P.hod.2x.numGoodPosTdcHits 14 0.5 14.5
-TH1F phodo_2y_good_tdc_occ_pos 'SHMS 2Y+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' P.hod.2y.numGoodPosTdcHits 21 0.5 21.5
-
-TH1F phodo_1x_good_tdc_occ_neg 'SHMS 1X- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' P.hod.1x.numGoodNegTdcHits 13 0.5 13.5
-TH1F phodo_1y_good_tdc_occ_neg 'SHMS 1Y- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' P.hod.1y.numGoodNegTdcHits 13 0.5 13.5
-TH1F phodo_2x_good_tdc_occ_neg 'SHMS 2X- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' P.hod.2x.numGoodNegTdcHits 14 0.5 14.5
-TH1F phodo_2y_good_tdc_occ_neg 'SHMS 2Y- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' P.hod.2y.numGoodNegTdcHits 21 0.5 21.5
-
-#---------------------
-# GOOD PULSE PEDESTAL
-#---------------------
-
-TH2F phodo_1x_good_pped_vs_pmt_pos 'SHMS 1X+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.1x.GoodPosAdcPed 13 0.5 13.5 400 300 700 P.hod.1x.GoodPosAdcPed>0.0
-TH2F phodo_1y_good_pped_vs_pmt_pos 'SHMS 1Y+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.1y.GoodPosAdcPed 13 0.5 13.5 400 300 700 P.hod.1y.GoodPosAdcPed>0.0
-TH2F phodo_2x_good_pped_vs_pmt_pos 'SHMS 2X+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.2x.GoodPosAdcPed 14 0.5 14.5 400 300 700 P.hod.2x.GoodPosAdcPed>0.0
-TH2F phodo_2y_good_pped_vs_pmt_pos 'SHMS 2Y+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.2y.GoodPosAdcPed 21 0.5 21.5 400 300 700 P.hod.2y.GoodPosAdcPed>0.0
-
-TH2F phodo_1x_good_pped_vs_pmt_neg 'SHMS 1X- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.1x.GoodNegAdcPed 13 0.5 13.5 400 300 700 P.hod.1x.GoodNegAdcPed>0.0
-TH2F phodo_1y_good_pped_vs_pmt_neg 'SHMS 1Y- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.1y.GoodNegAdcPed 13 0.5 13.5 400 300 700 P.hod.1y.GoodNegAdcPed>0.0
-TH2F phodo_2x_good_pped_vs_pmt_neg 'SHMS 2X- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.2x.GoodNegAdcPed 14 0.5 14.5 400 300 700 P.hod.2x.GoodNegAdcPed>0.0
-TH2F phodo_2y_good_pped_vs_pmt_neg 'SHMS 2Y- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.hod.2y.GoodNegAdcPed 21 0.5 21.5 400 300 700 P.hod.2y.GoodNegAdcPed>0.0
-
-#---------------------
-# GOOD PULSE INTEGRAL
-#---------------------
-
-TH2F phodo_1x_good_pi_vs_pmt_pos 'SHMS 1X+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.1x.GoodPosAdcPulseInt 13 0.5 13.5 600 0 30000 P.hod.1x.GoodPosAdcPulseInt>0.0
-TH2F phodo_1y_good_pi_vs_pmt_pos 'SHMS 1Y+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.1y.GoodPosAdcPulseInt 13 0.5 13.5 600 0 30000 P.hod.1y.GoodPosAdcPulseInt>0.0
-TH2F phodo_2x_good_pi_vs_pmt_pos 'SHMS 2X+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.2x.GoodPosAdcPulseInt 14 0.5 14.5 600 0 30000 P.hod.2x.GoodPosAdcPulseInt>0.0
-TH2F phodo_2y_good_pi_vs_pmt_pos 'SHMS 2Y+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.2y.GoodPosAdcPulseInt 21 0.5 21.5 600 0 30000 P.hod.2y.GoodPosAdcPulseInt>0.0
-
-TH2F phodo_1x_good_pi_vs_pmt_neg 'SHMS 1X- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.1x.GoodNegAdcPulseInt 13 0.5 13.5 600 0 30000 P.hod.1x.GoodNegAdcPulseInt>0.0
-TH2F phodo_1y_good_pi_vs_pmt_neg 'SHMS 1Y- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.1y.GoodNegAdcPulseInt 13 0.5 13.5 600 0 30000 P.hod.1y.GoodNegAdcPulseInt>0.0
-TH2F phodo_2x_good_pi_vs_pmt_neg 'SHMS 2X- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.2x.GoodNegAdcPulseInt 14 0.5 14.5 600 0 30000 P.hod.2x.GoodNegAdcPulseInt>0.0
-TH2F phodo_2y_good_pi_vs_pmt_neg 'SHMS 2Y- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.hod.2y.GoodNegAdcPulseInt 21 0.5 21.5 600 0 30000 P.hod.2y.GoodNegAdcPulseInt>0.0
-
-#-----------------------
-# GOOD PULSE AMPLITUDE
-#-----------------------
-
-TH2F phodo_1x_good_pamp_vs_pmt_pos 'SHMS 1X+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.1x.GoodPosAdcPulseAmp 13 0.5 13.5 205 0 4100 P.hod.1x.GoodPosAdcPulseAmp>0.0
-TH2F phodo_1y_good_pamp_vs_pmt_pos 'SHMS 1Y+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.1y.GoodPosAdcPulseAmp 13 0.5 13.5 205 0 4100 P.hod.1y.GoodPosAdcPulseAmp>0.0
-TH2F phodo_2x_good_pamp_vs_pmt_pos 'SHMS 2X+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.2x.GoodPosAdcPulseAmp 14 0.5 14.5 205 0 4100 P.hod.2x.GoodPosAdcPulseAmp>0.0
-TH2F phodo_2y_good_pamp_vs_pmt_pos 'SHMS 2Y+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.2y.GoodPosAdcPulseAmp 21 0.5 21.5 205 0 4100 P.hod.2y.GoodPosAdcPulseAmp>0.0
-
-TH2F phodo_1x_good_pamp_vs_pmt_neg 'SHMS 1X- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.1x.GoodNegAdcPulseAmp 13 0.5 13.5 205 0 4100 P.hod.1x.GoodNegAdcPulseAmp>0.0
-TH2F phodo_1y_good_pamp_vs_pmt_neg 'SHMS 1Y- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.1y.GoodNegAdcPulseAmp 13 0.5 13.5 205 0 4100 P.hod.1y.GoodNegAdcPulseAmp>0.0
-TH2F phodo_2x_good_pamp_vs_pmt_neg 'SHMS 2X- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.2x.GoodNegAdcPulseAmp 14 0.5 14.5 205 0 4100 P.hod.2x.GoodNegAdcPulseAmp>0.0
-TH2F phodo_2y_good_pamp_vs_pmt_neg 'SHMS 2Y- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.hod.2y.GoodNegAdcPulseAmp 21 0.5 21.5 205 0 4100 P.hod.2y.GoodNegAdcPulseAmp>0.0
-
-#---------------------
-# GOOD ADC PULSE TIME
-#---------------------
-
-TH2F phodo_1x_good_ptime_vs_pmt_pos 'SHMS 1X+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.1x.GoodPosAdcPulseTime 13 0.5 13.5 410 0 4100 P.hod.1x.GoodPosAdcPulseTime>0.0
-TH2F phodo_1y_good_ptime_vs_pmt_pos 'SHMS 1Y+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.1y.GoodPosAdcPulseTime 13 0.5 13.5 410 0 4100 P.hod.1y.GoodPosAdcPulseTime>0.0
-TH2F phodo_2x_good_ptime_vs_pmt_pos 'SHMS 2X+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.2x.GoodPosAdcPulseTime 14 0.5 14.5 410 0 4100 P.hod.2x.GoodPosAdcPulseTime>0.0
-TH2F phodo_2y_good_ptime_vs_pmt_pos 'SHMS 2Y+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.2y.GoodPosAdcPulseTime 21 0.5 21.5 410 0 4100 P.hod.2y.GoodPosAdcPulseTime>0.0
-
-TH2F phodo_1x_good_ptime_vs_pmt_neg 'SHMS 1X- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.1x.GoodNegAdcPulseTime 13 0.5 13.5 410 0 4100 P.hod.1x.GoodNegAdcPulseTime>0.0
-TH2F phodo_1y_good_ptime_vs_pmt_neg 'SHMS 1Y- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.1y.GoodNegAdcPulseTime 13 0.5 13.5 410 0 4100 P.hod.1y.GoodNegAdcPulseTime>0.0
-TH2F phodo_2x_good_ptime_vs_pmt_neg 'SHMS 2X- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.2x.GoodNegAdcPulseTime 14 0.5 14.5 410 0 4100 P.hod.2x.GoodNegAdcPulseTime>0.0
-TH2F phodo_2y_good_ptime_vs_pmt_neg 'SHMS 2Y- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.hod.2y.GoodNegAdcPulseTime 21 0.5 21.5 410 0 4100 P.hod.2y.GoodNegAdcPulseTime>0.0
-
-#---------------------------------------------------------
-# GOOD TDC TIME UNCORRECTED (uncorrected for time offsets)
-#---------------------------------------------------------
-
-TH2F phodo_1x_good_tdctime_uncorr_vs_pmt_pos 'SHMS 1X+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.1x.GoodPosTdcTimeUnCorr 13 0.5 13.5 120 0 120 P.hod.1x.GoodPosTdcTimeUnCorr>0.0
-TH2F phodo_1y_good_tdctime_uncorr_vs_pmt_pos 'SHMS 1Y+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.1y.GoodPosTdcTimeUnCorr 13 0.5 13.5 120 0 120 P.hod.1y.GoodPosTdcTimeUnCorr>0.0
-TH2F phodo_2x_good_tdctime_uncorr_vs_pmt_pos 'SHMS 2X+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.2x.GoodPosTdcTimeUnCorr 14 0.5 14.5 120 0 120 P.hod.2x.GoodPosTdcTimeUnCorr>0.0
-TH2F phodo_2y_good_tdctime_uncorr_vs_pmt_pos 'SHMS 2Y+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.2y.GoodPosTdcTimeUnCorr 21 0.5 21.5 120 0 120 P.hod.2y.GoodPosTdcTimeUnCorr>0.0
-
-TH2F phodo_1x_good_tdctime_uncorr_vs_pmt_neg 'SHMS 1X- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.1x.GoodNegTdcTimeUnCorr 13 0.5 13.5 120 0 120 P.hod.1x.GoodNegTdcTimeUnCorr>0.0
-TH2F phodo_1y_good_tdctime_uncorr_vs_pmt_neg 'SHMS 1Y- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.1y.GoodNegTdcTimeUnCorr 13 0.5 13.5 120 0 120 P.hod.1y.GoodNegTdcTimeUnCorr>0.0
-TH2F phodo_2x_good_tdctime_uncorr_vs_pmt_neg 'SHMS 2X- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.2x.GoodNegTdcTimeUnCorr 14 0.5 14.5 120 0 120 P.hod.2x.GoodNegTdcTimeUnCorr>0.0
-TH2F phodo_2y_good_tdctime_uncorr_vs_pmt_neg 'SHMS 2Y- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] P.hod.2y.GoodNegTdcTimeUnCorr 21 0.5 21.5 120 0 120 P.hod.2y.GoodNegTdcTimeUnCorr>0.0
-
-#-----------------------------------------------------
-# GOOD TDC TIME CORRECTED (corrected for time offsets)
-#-----------------------------------------------------
-
-TH2F phodo_1x_good_tdctime_corr_vs_pmt_pos 'SHMS 1X+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1x.GoodPosTdcTimeCorr 13 0.5 13.5 120 0 120 P.hod.1x.GoodPosTdcTimeCorr>0.0
-TH2F phodo_1y_good_tdctime_corr_vs_pmt_pos 'SHMS 1Y+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1y.GoodPosTdcTimeCorr 13 0.5 13.5 120 0 120 P.hod.1y.GoodPosTdcTimeCorr>0.0
-TH2F phodo_2x_good_tdctime_corr_vs_pmt_pos 'SHMS 2X+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2x.GoodPosTdcTimeCorr 14 0.5 14.5 120 0 120 P.hod.2x.GoodPosTdcTimeCorr>0.0
-TH2F phodo_2y_good_tdctime_corr_vs_pmt_pos 'SHMS 2Y+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2y.GoodPosTdcTimeCorr 21 0.5 21.5 120 0 120 P.hod.2y.GoodPosTdcTimeCorr>0.0
-
-TH2F phodo_1x_good_tdctime_corr_vs_pmt_neg 'SHMS 1X- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1x.GoodNegTdcTimeCorr 13 0.5 13.5 120 0 120 P.hod.1x.GoodNegTdcTimeCorr>0.0
-TH2F phodo_1y_good_tdctime_corr_vs_pmt_neg 'SHMS 1Y- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1y.GoodNegTdcTimeCorr 13 0.5 13.5 120 0 120 P.hod.1y.GoodNegTdcTimeCorr>0.0
-TH2F phodo_2x_good_tdctime_corr_vs_pmt_neg 'SHMS 2X- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2x.GoodNegTdcTimeCorr 14 0.5 14.5 120 0 120 P.hod.2x.GoodNegTdcTimeCorr>0.0
-TH2F phodo_2y_good_tdctime_corr_vs_pmt_neg 'SHMS 2Y- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2y.GoodNegTdcTimeCorr 21 0.5 21.5 120 0 120 P.hod.2y.GoodNegTdcTimeCorr>0.0
-
-#-----------------------------------------------------------
-# GOOD TDC TIME TOF CORRECTED (corrected for time of flight)
-#-----------------------------------------------------------
-
-TH2F phodo_1x_good_tdctime_tofcorr_vs_pmt_pos 'SHMS 1X+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1x.GoodPosTdcTimeTOFCorr 13 0.5 13.5 120 0 120 P.hod.1x.GoodPosTdcTimeTOFCorr>0.0
-TH2F phodo_1y_good_tdctime_tofcorr_vs_pmt_pos 'SHMS 1Y+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1y.GoodPosTdcTimeTOFCorr 13 0.5 13.5 120 0 120 P.hod.1y.GoodPosTdcTimeTOFCorr>0.0
-TH2F phodo_2x_good_tdctime_tofcorr_vs_pmt_pos 'SHMS 2X+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2x.GoodPosTdcTimeTOFCorr 14 0.5 14.5 120 0 120 P.hod.2x.GoodPosTdcTimeTOFCorr>0.0
-TH2F phodo_2y_good_tdctime_tofcorr_vs_pmt_pos 'SHMS 2Y+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2y.GoodPosTdcTimeTOFCorr 21 0.5 21.5 120 0 120 P.hod.2y.GoodPosTdcTimeTOFCorr>0.0
-
-TH2F phodo_1x_good_tdctime_tofcorr_vs_pmt_neg 'SHMS 1X- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1x.GoodNegTdcTimeTOFCorr 13 0.5 13.5 120 0 120 P.hod.1x.GoodNegTdcTimeTOFCorr>0.0
-TH2F phodo_1y_good_tdctime_tofcorr_vs_pmt_neg 'SHMS 1Y- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.1y.GoodNegTdcTimeTOFCorr 13 0.5 13.5 120 0 120 P.hod.1y.GoodNegTdcTimeTOFCorr>0.0
-TH2F phodo_2x_good_tdctime_tofcorr_vs_pmt_neg 'SHMS 2X- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2x.GoodNegTdcTimeTOFCorr 14 0.5 14.5 120 0 120 P.hod.2x.GoodNegTdcTimeTOFCorr>0.0
-TH2F phodo_2y_good_tdctime_tofcorr_vs_pmt_neg 'SHMS 2Y- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] P.hod.2y.GoodNegTdcTimeTOFCorr 21 0.5 21.5 120 0 120 P.hod.2y.GoodNegTdcTimeTOFCorr>0.0
-
-#----------------------------------------------------------------
-# SHMS HODO TRACKING, TIMING AND Particle ID (PID) - BETA (v/c)
-#----------------------------------------------------------------
-
-TH1F phodo_beta_notrack 'SHMS Hodo Calculated Beta Without Track Info; Beta; Number of Entries / 0.02' P.hod.betanotrack 100 0 2.0 P.hod.betanotrack>0.0
-TH1F phodo_beta 'SHMS Hodo Beta; Beta; Number of Entries / 0.02' P.hod.beta 100 0 2.0 P.hod.beta>0.0
-TH1F phodo_fpHitsTime 'SHMS Hodo Focal Plane Time; Focal Plane Time (ns); Number of Entries / 1 ns' P.hod.fpHitsTime 90 0 90
-TH1F phodo_starttime 'SHMS Hodo Start Time; Start Time (ns); Number of Entries / 1ns' P.hod.starttime 90 0 90
-TH1F phodo_good_startime 'SHMS Hodo Good Start Time (ns); Good Start Time (ns); Number of Entries / 1ns' P.hod.goodstarttime 90 0 90
-
-#**********************
-# Heavy Gas Cherenkov *
-#**********************
-
-#-----------------------------------------
-# SHMS HGC GOOD Occupancy and Multiplicity
-#-----------------------------------------
-
-TH1F phgcer_good_occ 'SHMS Heavy Gas Cherenkov Good Occupancy; PMT Number; Number Good ADC Hits' P.hgcer.numGoodAdcHits 4 0.5 4.5
-TH1F phgcer_good_mult 'SHMS Heavy Gas Cherenkov Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.hgcer.totNumGoodAdcHits 4 0.5 4.5
-
-#-------------------------------------------------------------------------------
-# SHMS HGC GOOD Pulse Pedestal / Integral / Raw Integral / Amplitude / Time
-# GOOD --> (passed errorFlag cut and pulsetime cuts oN Min/Max ADC Time Window)
-#-------------------------------------------------------------------------------
-
-TH2F phgcer_good_pped_vs_pmt 'SHMS Heavy Gas Cherenkov Good Pulse Pedestal vs. PMT Number; PMT Number; Pulse Pedestal / 1 ADC Units' [I+1] P.hgcer.goodAdcPed 4 0.5 4.5 400 300 700
-TH2F phgcer_good_pi_vs_pmt 'SHMS Heavy Gas Cherenkov Good Pulse Integral vs. PMT Number; PMT Number; Pulse Integral / 50 ADC Units' [I+1] P.hgcer.goodAdcPulseInt 4 0.5 4.5 600 0 30000 P.hgcer.goodAdcPulseInt>0.0
-TH2F phgcer_good_pamp_vs_pmt 'SHMS Heavy Gas Cherenkov Good Pulse Amplitude vs. PMT Number; PMT Number; Pulse Amplitude / 20 ADC Units' [I+1] P.hgcer.goodAdcPulseAmp 4 0.5 4.5 200 0 4000 P.hgcer.goodAdcPulseAmp>0.0
-TH2F phgcer_good_ptime_vs_pmt 'SHMS Heavy Gas Cherenkov Good Pulse Time vs. PMT Number; PMT Number; Pulse Time / 10 ADC Units' [I+1] P.hgcer.goodAdcPulseTime 4 0.5 4.5 350 0 3500 P.hgcer.goodAdcPulseTime>0.0
-
-#-------------------------------
-# SHMS HGC Number of P.E. / PMT
-#-------------------------------
-
-TH2F phgcer_npe 'SHMS Heavy Gas Cherenkov Number of Photoelectrons vs. PMT Number; PMT Number; Number of Photoelectrons / PMT' [I+1] P.hgcer.npe 4 0.5 4.5 200 0 100 P.hgcer.npe>0.0
-
-#-------------------------------
-# SHMS HGC TOTAL NUMBER OF P.E.
-#-------------------------------
-
-TH1F phgcer_tot_npe 'SHMS Heavy Gas Cherenkov Total Number of Photoelectrons; Total Number of Photoelectrons; Number of Entries / 0.5 Photoelectrons' P.hgcer.npeSum 200 0 100 P.hgcer.npeSum>0.0
-
-#--------------------------
-# SHMS HGC TRACK MATCHING
-#--------------------------
-
-sTH1F phgcer_trk_match 'SHMS Noble Gas Cherenkov Track Matches; PMT Number; Number of Tracks Matched' P.hgcer.numTracksMatched 4 0.5 4.5
-sTH1F phgcer_trk_fired 'SHMS Noble Gas Cherenkov Tracks Fired; PMT Number; Number of Tracks Fired' P.hgcer.numTracksFired 4 0.5 4.5
-
-#***************
-# SHMS AEROGEL *
-#***************
-
-#----------------------------------------------
-# SHMS AEROGEL GOOD Occupancy and Multiplicity
-#----------------------------------------------
-
-TH1F paero_good_occ_pos 'SHMS Aero+ Good Occupancy; PMT Number; Number of Good +ADC Hits' P.aero.numGoodPosAdcHits 7 0.5 7.5
-TH1F paero_good_occ_neg 'SHMS Aero- Good Occupancy; PMT Number; Number of Good -ADC Hits' P.aero.numGoodNegAdcHits 7 0.5 7.5
-TH1F paero_good_mult_pos 'SHMS Aero+ Good Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' P.aero.totNumGoodPosAdcHits 7 0.5 7.5
-TH1F paero_good_mult_neg 'SHMS Aero- Good Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' P.aero.totNumGoodNegAdcHits 7 0.5 7.5
-TH1F paero_good_mult 'SHMS Aero Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.aero.totnumGoodAdcHits 14 0.5 14.5
-
-#-------------------------------
-# SHMS AERO TOTAL NUMBER OF P.E.
-#-------------------------------
-
-TH1F paero_tot_npe_pos 'SHMS Aero+ Total Number of Photoelectrons; Total Number of Pos Photoelectrons; Number of Entries / 0.5 Photoelectrons' P.aero.posNpeSum 200 0 100 P.aero.posNpeSum>0.0
-TH1F paero_tot_npe_neg 'SHMS Aero- Total Number of Photoelectrons; Total Number of Neg Photoelectrons; Number of Entries / 0.5 Photoelectrons' P.aero.negNpeSum 200 0 100 P.aero.negNpeSum>0.0
-TH1F paero_tot_npe 'SHMS Aero Total Number of Photoelectrons; Total Number of Photoelectrons; Number of Entries / 0.5 Photoelectrons' P.aero.npeSum 200 0 100 P.aero.npeSum>0.0
-
-#--------------------------------
-# SHMS AERO Number of P.E. / PMT
-#--------------------------------
-
-TH2F paero_npe_pos 'SHMS Aero+ Number of Photoelectrons vs. PMT Number; PMT Number; Number of Photoelectrons / PMT' [I+1] P.aero.posNpe 7 0.5 7.5 200 0 100 P.aero.posNpe>0.0
-TH2F paero_npe_neg 'SHMS Aero- Number of Photoelectrons vs. PMT Number; PMT Number; Number of Photoelectrons / PMT' [I+1] P.aero.negNpe 7 0.5 7.5 200 0 100 P.aero.negNpe>0.0
-
-#------------------------------------------------------------------------------
-# SHMS AERO GOOD Pulse Pedestal / Integral / Raw Integral / Amplitude / Time
-# GOOD --> (passed errorFlag cut and pulsetime cuts oN Min/Max ADC Time Window)
-#------------------------------------------------------------------------------
-
-TH2F paero_good_pped_vs_pmt_pos 'SHMS Aero+ Good Pulse Pedestal vs. PMT Number; PMT Number; Pulse Pedestal / 1 ADC Units' [I+1] P.aero.goodPosAdcPed 7 0.5 7.5 400 300 700 P.aero.goodPosAdcPed>0.0
-TH2F paero_good_pi_vs_pmt_pos 'SHMS Aero+ Good Pulse Integral vs. PMT Number; PMT Number; Pulse Integral / 50 ADC Units' [I+1] P.aero.goodPosAdcPulseInt 7 0.5 7.5 600 0 30000 P.aero.goodPosAdcPulseInt>0.0
-TH2F paero_good_pamp_vs_pmt_pos 'SHMS Aero+ Good Pulse Amplitude vs. PMT Number; PMT Number; Pulse Amplitude / 20 ADC Units' [I+1] P.aero.goodPosAdcPulseAmp 7 0.5 7.5 200 0 4000 P.aero.goodPosAdcPulseAmp>0.0
-TH2F paero_good_ptime_vs_pmt_pos 'SHMS Aero+ Good Pulse Time vs. PMT Number; PMT Number; Pulse Time / 10 ADC Units' [I+1] P.aero.goodPosAdcPulseTime 7 0.5 7.5 350 0 3500 P.aero.goodPosAdcPulseTime>0.0
-
-TH2F paero_good_pped_vs_pmt_neg 'SHMS Aero- Good Pulse Pedestal vs. PMT Number; PMT Number; Pulse Pedestal / 1 ADC Units' [I+1] P.aero.goodNegAdcPed 7 0.5 7.5 400 300 700 P.aero.goodNegAdcPed>0.0
-TH2F paero_good_pi_vs_pmt_neg 'SHMS Aero- Good Pulse Integral vs. PMT Number; PMT Number; Pulse Integral / 50 ADC Units' [I+1] P.aero.goodNegAdcPulseInt 7 0.5 7.5 600 0 30000 P.aero.goodNegAdcPulseInt>0.0
-TH2F paero_good_pamp_vs_pmt_neg 'SHMS Aero- Good Pulse Amplitude vs. PMT Number; PMT Number; Pulse Amplitude / 20 ADC Units' [I+1] P.aero.goodNegAdcPulseAmp 7 0.5 7.5 200 0 4000 P.aero.goodNegAdcPulseAmp>0.0
-TH2F paero_good_ptime_vs_pmt_neg 'SHMS Aero- Good Pulse Time vs. PMT Number; PMT Number; Pulse Time / 10 ADC Units' [I+1] P.aero.goodNegAdcPulseTime 7 0.5 7.5 350 0 3500 P.aero.goodNegAdcPulseTime>0.0
-
-#*******************
-# SHMS CALORIMETER *
-#*******************
-
-#--------------------------------------------
-# SHMS PreSH GOOD Occupancy and Multiplicity
-#--------------------------------------------
-
-TH1F pcal_prshwr_good_occ_pos 'SHMS PreShower+ Good Occupancy; PMT Number; Number of Good +ADC Hits' P.cal.pr.numGoodPosAdcHits 14 0.5 14.5
-TH1F pcal_prshwr_good_occ_neg 'SHMS PreShower- Good Occupancy; PMT Number; Number of Good -ADC Hits' P.cal.pr.numGoodNegAdcHits 14 0.5 14.5
-TH1F pcal_prshwr_good_mult_pos 'SHMS PreShower+ Good Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' P.cal.pr.totNumGoodPosAdcHits 14 0.5 14.5
-TH1F pcal_prshwr_good_mult_neg 'SHMS PreShower- Good Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' P.cal.pr.totNumGoodNegAdcHits 14 0.5 14.5
-TH1F pcal_prshwr_good_mult 'SHMS PreShower Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' P.cal.pr.totnumGoodAdcHits 28 0.5 28.5
-
-#--------------------------------------------------------------------------------------------------
-# GOOD PULSE PEDESTALS/INTEGRALS/AMPLITUDES/TIMES
-# GOOD --> (passed errorFlag cut, pulsetime cuts oN Min/Max ADC Time Window, and ADC threshold cut)
-#--------------------------------------------------------------------------------------------------
-
-TH2F pcal_prshwr_good_pped_vs_pmt_pos 'SHMS PreShower+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.cal.pr.goodPosAdcPed 14 0.5 14.5 400 300 700 P.cal.pr.goodPosAdcPed>0.0
-TH2F pcal_prshwr_good_pi_vs_pmt_pos 'SHMS PreShower+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.cal.pr.goodPosAdcPulseInt 14 0.5 14.5 600 0 30000 P.cal.pr.goodPosAdcPulseInt>0.0
-TH2F pcal_prshwr_good_pamp_vs_pmt_pos 'SHMS PreShower+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.cal.pr.goodPosAdcPulseAmp 14 0.5 14.5 200 0 4000 P.cal.pr.goodPosAdcPulseAmp>0.0
-TH2F pcal_prshwr_good_ptime_vs_pmt_pos 'SHMS PreShower+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.cal.pr.goodPosAdcPulseTime 14 0.5 14.5 350 0 3500 P.cal.pr.goodPosAdcPulseTime>0.0
-
-TH2F pcal_prshwr_good_pped_vs_pmt_neg 'SHMS PreShower- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.cal.pr.goodNegAdcPed 14 0.5 14.5 400 300 700 P.cal.pr.goodNegAdcPed>0.0
-TH2F pcal_prshwr_good_pi_vs_pmt_neg 'SHMS PreShower- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.cal.pr.goodNegAdcPulseInt 14 0.5 14.5 600 0 30000 P.cal.pr.goodNegAdcPulseInt>0.0
-TH2F pcal_prshwr_good_pamp_vs_pmt_neg 'SHMS PreShower- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.cal.pr.goodNegAdcPulseAmp 14 0.5 14.5 200 0 4000 P.cal.pr.goodNegAdcPulseAmp>0.0
-TH2F pcal_prshwr_good_ptime_vs_pmt_neg 'SHMS PreShower- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.cal.pr.goodNegAdcPulseTime 14 0.5 14.5 350 0 3500 P.cal.pr.goodNegAdcPulseTime>0.0
-
-#------------------------------------------------------
-# SHMS PRE-SHOWER ENERGY DEPOSITION vs. PMT HISTOGRAMS
-# (calib consts (GAIN) are in GeV/ADC units )
-#------------------------------------------------------
-
-TH2F pcal_prshwr_Epos_vs_pmt 'SHMS PreShower+ Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] P.cal.pr.epos 14 0.5 14.5 200 0 2 P.cal.pr.epos>0.0
-TH2F pcal_prshwr_Eneg_vs_pmt 'SHMS PreShower- Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] P.cal.pr.eneg 14 0.5 14.5 200 0 2 P.cal.pr.eneg>0.0
-TH2F pcal_prshwr_Emean_vs_pmt 'SHMS PreShower Mean Energy Deposition vs. PMT Number; PMT Number; Mean Energy Deposition (0.01 GeV / ADC Units)' [I+1] P.cal.pr.emean 14 0.5 14.5 300 0 3 P.cal.pr.emean>0.0
-
-#-------------------------------------------
-# SHMS ENERGY DEPOSITION in PreShower PLANE
-#-------------------------------------------
-
-TH1F pcal_prshwr_Eplane_pos 'SHMS PreShower+ Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' P.cal.pr.eplane_pos 200 0 2 P.cal.pr.eplane_pos>0.0
-TH1F pcal_prshwr_Eplane_neg 'SHMS PreShower- Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' P.cal.pr.eplane_neg 200 0 2 P.cal.pr.eplane_neg>0.0
-TH1F pcal_prshwr_Eplane 'SHMS PreShower Total Energy Deposition; Total Energy Deposition (GeV); Number of Entries / 0.01 GeV' P.cal.pr.eplane 300 0 3 P.cal.pr.eplane>0.0
-
-#---------------------------------------------
-# SHMS Shower GOOD Occupancy and Multiplicity
-#---------------------------------------------
-TH1F pcal_shwr_good_occ 'SHMS Shower Good Occupancy; PMT Number; Number of Good ADC Hits' P.cal.fly.numGoodAdcHits 224 0.5 224.5
-TH1F pcal_shwr_good_mult 'SHMS Shower Good Multiplicity; PMT Number; Total Number of Good ADC Hits' P.cal.fly.totNumGoodAdcHits 224 0.5 224.5
-
-#-------------------------------------------------------------
-# SHMS Shower GOOD PULSE PEDESTALS/INTEGRALS/AMPLITUDES/TIMES
-#-------------------------------------------------------------
-
-TH2F pcal_shwr_good_pped_vs_pmt 'SHMS Shower Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] P.cal.fly.goodAdcPed 224 0.5 224.5 700 300 1000 P.cal.fly.goodAdcPed>0.0
-TH2F pcal_shwr_good_pi_vs_pmt 'SHMS Shower Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] P.cal.fly.goodAdcPulseInt 224 0.5 224.5 600 0 30000 P.cal.fly.goodAdcPulseInt>0.0
-TH2F pcal_shwr_good_pamp_vs_pmt 'SHMS Shower Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] P.cal.fly.goodAdcPulseAmp 224 0.5 224.5 200 0 4000 P.cal.fly.goodAdcPulseAmp>0.0
-TH2F pcal_shwr_good_ptime_vs_pmt 'SHMS Shower Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] P.cal.fly.goodAdcPulseTime 224 0.5 224.5 350 0 3500 P.cal.fly.goodAdcPulseTime>0.0
-
-#--------------------------------------------------
-# SHMS SHOWER ENERGY DEPOSITION vs. PMT HISTOGRAMS
-# (calib consts (GAIN) are in GeV/ADC units )
-#--------------------------------------------------
-
-TH2F pcal_shwr_E_vs_pmt 'SHMS Shower Energy Deposition vs. PMT Number; PMT Number; Energy Deposited (0.01 GeV / ADC Units)' [I+1] P.cal.fly.e 224 0.5 224.5 300 0 3 P.cal.fly.e>0.0
-
-#--------------------------------------------------
-# TOTAL ENERGY DEPOSITION IN THE SHMS SHOWER ARRAY
-#--------------------------------------------------
-
-TH1F pcal_shwr_Earray 'SHMS Shower Total Energy Deposition in Array; Total Energy Deposited (GeV); Number of Entries / 0.01 GeV' P.cal.fly.earray 600 0 6 P.cal.fly.earray>0.0
-
-#-------------------------------------------------------------------------------------
-# SHMS PRE-SHOWER AND SHOWER (CALORIMETER) TOTAL ENERGY DEPOSITION
-# TOTAL ENERGY AND NORMALIZED ENERGY DEPOSITED IN CALORIMETER (SHOWER AND PRE-SHOWER)
-#-------------------------------------------------------------------------------------
-
-TH1F pcal_etot 'SHMS Calorimeter Total Energy Deposition; Total Energy Deposition (GeV); Number of Entries / 0.01 GeV' P.cal.etot 500 0 5 P.cal.etot>0.0
-TH1F pcal_etot_norm 'SHMS Calorimeter Total Normalized Energy Deposition; Total Energy Deposited (GeV) / P0 (GeV); Number of Entries / 0.01' P.cal.etotnorm 500 0 5 P.cal.etotnorm>0.0
-TH1F pcal_etrack 'SHMS Calorimeter Total Track Energy; Track Energy Deposited (GeV); Number of Entries / 0.1 GeV' P.cal.etrack 100 0 10 P.cal.etrack>0.0
-TH1F pcal_etracknorm 'SHMS Calorimeter Normalized Track Energy; Trk. Energy Dep. (GeV) / Trk. P (GeV); Number of Entries / 0.1 ' P.cal.etracknorm 100 0 10 P.cal.etracknorm>0.0
-TH1F pcal_etracknorm_track 'SHMS Calorimeter Normalized Track Energy (Ntrack > 0); Trk. Energy Dep. (GeV) / Trk. P (GeV); Number of Entries / 0.1 ' P.cal.etracknorm 100 0 10 P.cal.etracknorm>0.0&&P.dc.ntrack>0
-TH1F pcal_enenorm_track_elec 'SHMS Cal energy/p (npeSum > .5&&abs(del)<8)' P.cal.etracknorm 300 0. 1.5 P.dc.ntrack>0&&P.ngcer.npeSum>.5&&P.hgcer.npeSum>.5&&P.gtr.dp>-8.&&P.gtr.dp<8.
-TH1F pcal_enenorm_track_pion 'SHMS Cal energy/p (npeSum <.5&&abs(del)<8)' P.cal.etracknorm 300 0. 1.5 P.dc.ntrack>0&&P.ngcer.npeSum<.5&&P.hgcer.npeSum<.5&&P.gtr.dp>-8.&&P.gtr.dp<8.
-TH2F pcal_ene_2dtrack 'SHMS Cal energy v energy track' P.cal.etrack P.cal.etot 1000 0. 5. 1000 0. 5. P.dc.ntrack>0
-TH2F pcal_delta_etrack 'SHMS Delta v Cal energy/p ' P.cal.etracknorm P.gtr.dp 60 0. 1.5 80 -15. 25. P.dc.ntrack>0
-TH2F pcal_ngnpe_etrack 'SHMS NG Cer Npe v Cal energy/p' P.cal.etracknorm P.ngcer.npeSum 300 0. 1.5 60 0. 15. P.dc.ntrack>0
-TH2F pcal_hgnpe_etrack 'SHMS HG Cer Npe v Cal energy/p' P.cal.etracknorm P.hgcer.npeSum 300 0. 1.5 60 0. 15. P.dc.ntrack>0
-
-#-------------------------------
-# SHMS PID AND ACCEPTANCE PLOTS
-#-------------------------------
-
-TH2F hgc_vs_prshw 'SHMS HGC Total N.P.E. vs. PreSh Energy; Total PreSh Energy Deposition / 0.01 GeV; HGC Total N.P.E. / 0.5' P.cal.pr.eplane P.hgcer.npeSum 300 0 3 40 0 20 P.cal.pr.eplane>0.0&&P.hgcer.npeSum>0.0
-TH2F ngc_vs_prshw 'SHMS NGC Total N.P.E. vs. PreSh Energy; Total PreSh Energy Deposition / 0.01 GeV; NGC Total N.P.E. / 0.5' P.cal.pr.eplane P.ngcer.npeSum 300 0 3 40 0 20 P.cal.pr.eplane>0.0&&P.ngcer.npeSum>0.0
-TH2F pcal_shw_vs_prshw 'Shower vs. PreShower Energy Deposition; PreShower Energy / 0.1 GeV; Shower Energy / 0.1 GeV' P.cal.pr.eplane P.cal.fly.earray 50 0 5 350 0 35 P.cal.pr.eplane>0.0&&P.cal.fly.earray>0.0
-TH2F delta_vs_etracknorm 'SHMS Delta. vs. Normalized Track Energy; Calorimeter Normalized Track Energy; Momentum Acceptance (%)' P.cal.etracknorm P.gtr.dp 50 0 5 80 -15, 25 P.cal.etracknorm>0.0&&P.dc.ntrack>0
-
-#---------------------------
-# CLUSTERING PLOTS
-#---------------------------
-
-TH1F pcal_xclusttrack 'SHMS Cal X pos' P.cal.xclusttrack 200 -100. 100. P.cal.nclusttrack>-1
-TH1F pcal_xdiff 'SHMS Cal X pos - X track' P.cal.xclusttrack-P.cal.xtrack 200 -20. 20. P.cal.nclusttrack>-1&&P.dc.ntrack>0
-TH2F pcal_xdiff_v_xtr 'SHMS Cal X pos - X track v Xtr' P.cal.xtrack P.cal.xclusttrack-P.cal.xtrack 200 -100. 100. 200 -20. 20. P.cal.nclusttrack>-1&&P.dc.ntrack>0
-TH1F pcal_xtrack 'SHMS Cal X pos of track' P.cal.xtrack 200 -100. 100. P.cal.nclusttrack>-1&&P.dc.ntrack>0
-TH1F pcal_xtrack1 'SHMS Cal X pos of track no matching clust' P.cal.xtrack 200 -100. 100. P.cal.nclusttrack==-1&&P.gtr.dp>-8.&&P.gtr.dp<8.&&P.dc.ntrack>0
-TH1F pcal_xtrack2 'SHMS Cal X pos of track no matching clust number of cluster=1' P.cal.xtrack 200 -100. 100. P.cal.nclusttrack==-1&&P.cal.nclust==0&&P.gtr.dp>-8.&&P.gtr.dp<8.&&P.dc.ntrack>0
-
-#********************
-# Trigger Apparatus *
-#********************
-
-TH1F ptrig_pngc_sum_pped 'SHMS Noble Gas Sum FADC Pulse Pedestal; Pulse Pedestal; Number of Entries / 1 ADC Units' T.shms.pNGCSUM_adcPed 2000 0 2000
-TH1F ptrig_pngc_sum_pint 'SHMS Noble Gas Sum FADC Pulse Integral; Pulse Integral; Number of Entries / 10 ADC Units' T.shms.pNGCSUM_adcPulseInt 4000 0 40000
-TH1F ptrig_pngc_sum_pamp 'SHMS Noble Gas Sum FADC Pulse Amplitude; Pulse Amplitude; Number of Entries / 1 ADC Units' T.shms.pNGCSUM_adcPulseAmp 4100 0 4100
-TH1F ptrig_pngc_sum_ptime 'SHMS Noble Gas Sum FADC Pulse Time; Pulse Time; Number of Entries / 10 ADC Units' T.shms.pNGCSUM_adcPulseTimeRaw 1000 0 10000
-TH1F ptrig_pngc_sum_tdc 'SHMS Noble Gas Sum TDC Time; TDC Time; Number of Entries / 10 TDC Units' T.shms.pNGCSUM_tdcTime 700 -3500 3500
-
-TH1F ptrig_phgc_sum_pped 'SHMS Heavy Gas Sum FADC Pulse Pedestal; Pulse Pedestal; Number of Entries / 1 ADC Units' T.shms.pHGCSUM_adcPed 2000 0 2000
-TH1F ptrig_phgc_sum_pint 'SHMS Heavy Gas Sum FADC Pulse Integral; Pulse Integral; Number of Entries / 10 ADC Units' T.shms.pHGCSUM_adcPulseInt 4000 0 40000
-TH1F ptrig_phgc_sum_pamp 'SHMS Heavy Gas Sum FADC Pulse Amplitude; Pulse Amplitude; Number of Entries / 1 ADC Units' T.shms.pHGCSUM_adcPulseAmp 4100 0 4100
-TH1F ptrig_phgc_sum_ptime 'SHMS Heavy Gas Sum FADC Pulse Time; Pulse Time; Number of Entries / 10 ADC Units' T.shms.pHGCSUM_adcPulseTimeRaw 1000 0 10000
-TH1F ptrig_phgc_sum_tdc 'SHMS Heavy Gas Sum TDC Time; TDC Time; Number of Entries / 10 TDC Units' T.shms.pHGCSUM_tdcTime 700 -3500 3500
-
-TH1F ptrig_p1x_tdc_mult 'SHMS p1x TDC Multiplicity; Raw TDC Multiplicity; Counts / 10' T.shms.p1X_tdcMultiplicity 11 0 11
-TH1F ptrig_p1y_tdc_mult 'SHMS p1y TDC Multiplicity; Raw TDC Multiplicity; Counts / 10' T.shms.p1Y_tdcMultiplicity 11 0 11
-TH1F ptrig_p2x_tdc_mult 'SHMS p2x TDC Multiplicity; Raw TDC Multiplicity; Counts / 10' T.shms.p2X_tdcMultiplicity 11 0 11
-TH1F ptrig_p2y_tdc_mult 'SHMS p2y TDC Multiplicity; Raw TDC Multiplicity; Counts / 10' T.shms.p2Y_tdcMultiplicity 11 0 11
-
-TH1F ptrig_p1T_tdc_mult 'SHMS p1x/p1y Coincidence TDC Multiplicity; Raw TDC Multiplicity; Counts / 10' T.shms.p1T_tdcMultiplicity 11 0 11
-TH1F ptrig_p2T_tdc_mult 'SHMS p2x/p2y Coincidence TDC Multiplicity; Raw TDC Multiplicity; Counts / 10' T.shms.p2T_tdcMultiplicity 11 0 11
-
-TH1F ptrig_pT1_tdc_mult 'SHMS p1x/p1y/p2x/p2y Coincidence TDC Multiplicity (Slot 20, Channel 15); Raw TDC Multiplicity; Counts / 10' T.shms.pT1_tdcMultiplicity 11 0 11
-TH1F ptrig_pT2_tdc_mult 'SHMS p1x/p1y/p2x/p2y Coincidence TDC Multiplicity (Slot 19, Channel 31); Raw TDC Multiplicity; Counts / 10' T.shms.pT2_tdcMultiplicity 11 0 11
-TH1F ptrig_pT3_tdc_mult 'SHMS p1x/p1y/p2x/p2y Coincidence TDC Multiplicity (Slot 19, Channel 38); Raw TDC Multiplicity; Counts / 10' T.shms.pT3_tdcMultiplicity 11 0 11
-
-TH1F ptrig_p1x_tdc 'SHMS p1x TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p1X_tdcTime 350 0 3500
-TH1F ptrig_p1y_tdc 'SHMS p1y TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p1Y_tdcTime 350 0 3500
-TH1F ptrig_p2x_tdc 'SHMS p2x TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p2X_tdcTime 350 0 3500
-TH1F ptrig_p2y_tdc 'SHMS p2y TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p2Y_tdcTime 350 0 3500
-
-TH1F ptrig_p1T_tdc 'SHMS p1x/p1y Coincidence TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p1T_tdcTime 350 0 3500
-TH1F ptrig_p2T_tdc 'SHMS p2x/p2y Coincidence TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p2T_tdcTime 350 0 3500
-
-TH1F ptrig_pT1_tdc 'SHMS p1x/p1y/p2x/p2y Coincidence TDC Time (Slot 20, Channel 15); Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.pT1_tdcTime 350 0 3500
-TH1F ptrig_pT2_tdc 'SHMS p1x/p1y/p2x/p2y Coincidence TDC Time (Slot 19, Channel 31); Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.pT2_tdcTime 350 0 3500
-TH1F ptrig_pT3_tdc 'SHMS p1x/p1y/p2x/p2y Coincidence TDC Time (Slot 19, Channel 38); Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.pT3_tdcTime 350 0 3500
-
-TH1F ptrig_p1x_good_tdc 'SHMS p1x Good TDC Time; Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p1X_tdcTime 350 0 3500 T.shms.p1X_tdcMultiplicity==1
-TH1F ptrig_p1y_good_tdc 'SHMS p1y Good TDC Time; Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p1Y_tdcTime 350 0 3500 T.shms.p1Y_tdcMultiplicity==1
-TH1F ptrig_p2x_good_tdc 'SHMS p2x Good TDC Time; Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p2X_tdcTime 350 0 3500 T.shms.p2X_tdcMultiplicity==1
-TH1F ptrig_p2y_good_tdc 'SHMS p2y Good TDC Time; Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p2Y_tdcTime 350 0 3500 T.shms.p2Y_tdcMultiplicity==1
-
-TH1F ptrig_p1T_good_tdc 'SHMS p1x/p1y Coincidence Good TDC Time; Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p1T_tdcTime 350 0 3500 T.shms.p1T_tdcMultiplicity==1
-TH1F ptrig_p2T_good_tdc 'SHMS p2x/p2y Coincidence Good TDC Time; Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.p2T_tdcTime 350 0 3500 T.shms.p2T_tdcMultiplicity==1
-
-TH1F ptrig_pT1_good_tdc 'SHMS p1x/p1y/p2x/p2y Coincidence Good TDC Time (Slot 20, Channel 15); Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.pT1_tdcTime 350 0 3500 T.shms.pT1_tdcMultiplicity==1
-TH1F ptrig_pT2_good_tdc 'SHMS p1x/p1y/p2x/p2y Coincidence Good TDC Time (Slot 19, Channel 31); Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.pT2_tdcTime 350 0 3500 T.shms.pT2_tdcMultiplicity==1
-TH1F ptrig_pT3_good_tdc 'SHMS p1x/p1y/p2x/p2y Coincidence Good TDC Time (Slot 19, Channel 38); Good Raw TDC Time (TDC Units); Counts / 10 TDC Units' T.shms.pT3_tdcTime 350 0 3500 T.shms.pT3_tdcMultiplicity==1
-
-TH2F ptrig_ch1xy_ch2x 'SHMS Hodo Trig; 1X1Y Trig (ns); 2X Trig (ns)' T.shms.p1T_tdcTime T.shms.p2X_tdcTime 200 100 300 200 100 300 T.shms.p2X_tdcMultiplicity==1&&T.shms.p1T_tdcMultiplicity==1
-TH2F ptrig_ch1x_ch2x 'SHMS Hodo Trig; 1X Trig (ns); 2X Trig (ns)' T.shms.p1X_tdcTime T.shms.p2X_tdcTime 200 100 300 200 100 300 T.shms.p2X_tdcMultiplicity==1&&T.shms.p1X_tdcMultiplicity==1
-TH2F ptrig_ch1y_ch2x 'SHMS Hodo Trig; 1Y Trig (ns); 2X Trig (ns)' T.shms.p1Y_tdcTime T.shms.p2X_tdcTime 200 100 300 200 100 300 T.shms.p2X_tdcMultiplicity==1&&T.shms.p1Y_tdcMultiplicity==1
-TH2F ptrig_ch1ych1x 'SHMS Hodo Trig; Trig 1X (ns); Trig 1Y (ns)' T.shms.p1X_tdcTime T.shms.p1Y_tdcTime 200 100 300 200 100 300 T.shms.p1Y_tdcMultiplicity==1&&T.shms.p1X_tdcMultiplicity==1
-
-TH1F ptrig_pdc_ref1 'SHMS DC Reference Time Slot 6 Channel 79; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF1_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref2 'SHMS DC Reference Time Slot 7 Channel 79; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF2_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref3 'SHMS DC Reference Time Slot 8 Channel 79; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF3_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref4 'SHMS DC Reference Time Slot 9 Channel 79; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF4_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref5 'SHMS DC Reference Time Slot 10 Channel 79; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF5_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref6 'SHMS DC Reference Time Slot 11 Channel 47; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF6_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref7 'SHMS DC Reference Time Slot 12 Channel 47; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF7_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref8 'SHMS DC Reference Time Slot 13 Channel 47; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF8_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref9 'SHMS DC Reference Time Slot 14 Channel 15; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF9_tdcTime 200 12000 14000
-TH1F ptrig_pdc_ref10 'SHMS DC Reference Time Slot 15 Channel 47; Raw TDC Time (TDC Clicks); Counts / 10 TDC Clicks' T.shms.pDCREF10_tdcTime 200 12000 14000
-
-
-#*****************************************
-# SHMS Single Arm Primary (Scattered Beam)
-# Kinematic Quantities
-#*****************************************
-
-TH1F pkin_q2 'SHMS Q2; Q2 (GeV^{2}); Number of Entries / 0.050 GeV^{2}' P.kin.Q2 100 0 5
-TH1F pkin_omega 'SHMS Omega; E_{beam} - E_{scat} (GeV); Number of Entries / 0.050 GeV' P.kin.omega 100 0 5
-TH1F pkin_w2 'SHMS W2; W2 (GeV^{2}); Number of Entries / 0.100 GeV^{2}' P.kin.W2 100 0 10
-TH1F pkin_w 'SHMS W; W (GeV); Number of Entries / 0.050 GeV' P.kin.W 100 0 5
-TH1F pkin_theta 'SHMS Scattering Angle Theta; SHMS Scattering Angle (deg); Number of Entries / 0.06 deg' P.kin.scat_ang_deg 100 12 18
-
-
-#*************
-# Fast Raster
-#*************
-
-# Assume FADC range is set to 1V and the integration is 25 channels
-# Offset in the FADC is about 0.122V or 500 channels.
-
-formula FRXA_V P.rb.raster.frxaRawAdc*(1./4096.)/25.
-formula FRXB_V P.rb.raster.frxbRawAdc*(1./4096.)/25.
-formula FRYA_V P.rb.raster.fryaRawAdc*(1./4096.)/25.
-formula FRYB_V P.rb.raster.frybRawAdc*(1./4096.)/25.
-
-TH1F pFRXA 'SHMS FRXA; FRXA RAW ADC (chan); Counts' P.rb.raster.frxaRawAdc 1000 0 100000
-TH1F pFRXA_V 'SHMS FRXA; FRXA RAW ADC (Volts); Counts' FRXA_V 1000 0 1.0
-TH1F pFRXB 'SHMS FRXB; FRXB RAW ADC (chan); Counts' P.rb.raster.frxbRawAdc 1000 0 100000
-TH1F pFRXB_V 'SHMS FRXB; FRXB RAW ADC (Volts); Counts' FRXB_V 1000 0 1.0
-TH1F pFRYA 'SHMS FRYA; FRYA RAW ADC (chan); Counts' P.rb.raster.fryaRawAdc 1000 0 100000
-TH1F pFRYA_V 'SHMS FRYA; FRYA RAW ADC (Volts); Counts' FRYA_V 1000 0 1.0
-TH1F pFRYB 'SHMS FRYB; FRYB RAW ADC (chan); Counts' P.rb.raster.frybRawAdc 1000 0 100000
-TH1F pFRYB_V 'SHMS FRYB; FRYB RAW ADC (Volts); Counts' FRYB_V 1000 0 1.0
-TH2F pFRA_XvsY 'HMSFRA_XvsY; FRXA RAW ADC (Volts); FRYA RAW ADC (Volts)' FRXA_V FRYA_V 1000 0 1.0 1000 0 1.0
-TH2F pFRB_XvsY 'HMSFRB_XvsY; FRXB RAW ADC (Volts); FRYB RAW ADC (Volts)' FRXB_V FRYB_V 1000 0 1.0 1000 0 1.0
-
-
-#******************
-# EPICS VARIABLES *
-#******************
-
-begin epics
-
-IBC3H00CRCUR4
-hac_bcm_average
-ibcm1
-ibcm2
-iunser
-itov3out
-itov4out
-
-end epics
\ No newline at end of file
+#include "DEF-files/SHMS/PRODUCTION/BLOCK/pblock_vars.def"
+#include "DEF-files/SHMS/PRODUCTION/NGCER/pngcer_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/DC/pdc_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/HODO/phodo_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/HGCER/phgcer_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/AERO/paero_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/CAL/pcal_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/TRIG/ptrig_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/KIN/pkin_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/RASTER/praster_histos.def"
+#include "DEF-files/SHMS/PRODUCTION/EPICS/pepics_vars.def"