diff --git a/DataQuality/DataQualityConfigurations/config/LArMonitoring/collisions_run.config b/DataQuality/DataQualityConfigurations/config/LArMonitoring/collisions_run.config
index 8fb22f8087e49965bf8051c81e31bc5a64d4cc39..2487d9c4ef19cce6da4836e90536a061425381d5 100644
--- a/DataQuality/DataQualityConfigurations/config/LArMonitoring/collisions_run.config
+++ b/DataQuality/DataQualityConfigurations/config/LArMonitoring/collisions_run.config
@@ -152,7 +152,7 @@ output top_level {
               output Sampling3 {
               }
           }
-      } 
+      }
     }
 
     output EMBC {
@@ -257,7 +257,7 @@ output top_level {
               output Sampling3 {
               }
           }
-      } 
+      }
     }
 
     output EMECA {
@@ -363,7 +363,7 @@ output top_level {
               output Sampling3 {
               }
           }
-      } 
+      }	 
     }
 
     output EMECC {
@@ -658,7 +658,7 @@ output top_level {
               output Sampling0 {
               }
           }
-      } 
+      }
     }
 
     output FCALA {
@@ -8156,6 +8156,177 @@ dir CaloMonitoring {
 
     }
   }
+  
+  dir LArClusterCellMon {
+    dir ClusterCell {
+      #EMBA
+      hist PercentClusteredCells_EMB1A {
+        output = LAr/EMBA/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMB2A {
+        output = LAr/EMBA/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMB3A {
+        output = LAr/EMBA/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMBPA {
+        output = LAr/EMBA/Occupancy-Noise/Single_Cells/Presampler
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      #EMBC
+      hist PercentClusteredCells_EMB1C {
+        output = LAr/EMBC/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMB2C {
+        output = LAr/EMBC/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      hist PercentClusteredCells_EMB3C {
+        output = LAr/EMBC/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      hist PercentClusteredCells_EMBPC {
+        output = LAr/EMBC/Occupancy-Noise/Single_Cells/Presampler
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      #EMECA
+      hist PercentClusteredCells_EMEC1A {
+        output = LAr/EMECA/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMEC2A {
+        output = LAr/EMECA/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMEC3A {
+        output = LAr/EMECA/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMECPA {
+        output = LAr/EMECA/Occupancy-Noise/Single_Cells/Presampler
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      #EMECC
+      hist PercentClusteredCells_EMEC1C {
+        output = LAr/EMECC/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMEC2C {
+        output = LAr/EMECC/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMEC3C {
+        output = LAr/EMECC/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_EMECPC {
+        output = LAr/EMECC/Occupancy-Noise/Single_Cells/Presampler
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      #FCALA
+      hist PercentClusteredCells_FCAL1A {
+        output = LAr/FCALA/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_FCAL2A {
+        output = LAr/FCALA/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_FCAL3A {
+        output = LAr/FCALA/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      #FCALC
+      hist PercentClusteredCells_FCAL1C {
+        output = LAr/FCALC/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_FCAL2C {
+        output = LAr/FCALC/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_FCAL3C {
+        output = LAr/FCALC/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      #HECA
+      hist PercentClusteredCells_HEC0A {
+        output = LAr/HECA/Occupancy-Noise/Single_Cells/Sampling0
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_HEC1A {
+        output = LAr/HECA/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_HEC2A {
+        output = LAr/HECA/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_HEC3A {
+        output = LAr/HECA/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+
+      #HECC
+      hist PercentClusteredCells_HEC0C {
+        output = LAr/HECC/Occupancy-Noise/Single_Cells/Sampling0
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_HEC1C {
+        output = LAr/HECC/Occupancy-Noise/Single_Cells/Sampling1
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_HEC2C {
+        output = LAr/HECC/Occupancy-Noise/Single_Cells/Sampling2
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+      hist PercentClusteredCells_HEC3C {
+        output = LAr/HECC/Occupancy-Noise/Single_Cells/Sampling3
+ 	      algorithm = LAr_CaloCells_fractionOverQthVsEtaPhi_Bins_GreaterThan_Threshold
+        weight = 0
+      }
+    }
+  }
 }
 
 
@@ -8711,4 +8882,4 @@ thresholds LAr_CaloCells_BinsDiffFromStripMedian_threshold {
     warning = 30 
     error = 200
   }
-}
+}
\ No newline at end of file