diff --git a/Code/Mantid/Framework/PythonInterface/plugins/algorithms/WorkflowAlgorithms/CutMD.py b/Code/Mantid/Framework/PythonInterface/plugins/algorithms/WorkflowAlgorithms/CutMD.py
index db43fa742e1a49feda1545e67faf782b76112b07..a78bba9dac8897a9560db1b392ee6e2c23b7cc4d 100644
--- a/Code/Mantid/Framework/PythonInterface/plugins/algorithms/WorkflowAlgorithms/CutMD.py
+++ b/Code/Mantid/Framework/PythonInterface/plugins/algorithms/WorkflowAlgorithms/CutMD.py
@@ -196,7 +196,6 @@ class CutMD(DataProcessorAlgorithm):
     def __verify_projection_input(self, projection_table):
         if isinstance(projection_table, ITableWorkspace):
             column_names = set(projection_table.getColumnNames())
-            logger.warning(str(column_names)) 
             if not column_names == set([Projection.u, Projection.v, 'type']):
                     if not column_names == set([Projection.u, Projection.v, 'offsets', 'type']):
                         if not column_names == set([Projection.u, Projection.v, Projection.w, 'offsets', 'type']):
diff --git a/Code/Mantid/docs/source/algorithms/CutMD-v1.rst b/Code/Mantid/docs/source/algorithms/CutMD-v1.rst
new file mode 100644
index 0000000000000000000000000000000000000000..fa17ef3ee505724e2a7d0644bc0e169c5a245db8
--- /dev/null
+++ b/Code/Mantid/docs/source/algorithms/CutMD-v1.rst
@@ -0,0 +1,68 @@
+.. algorithm::
+
+.. summary::
+
+.. alias::
+
+.. properties::
+
+Description
+-----------
+
+This algorithm performs slicing of multiDimensional data according to a chosen projection, and binning choice. The algorithm uses :ref:`algm-BinMD` or 
+:ref:`algm-SliceMD` to achieve the binning of the data. The choice of child algorithm used for the slicing is controlled by the NoPix option.
+
+The synax is similar to that used by `Horace <http://horace.isis.rl.ac.uk/Manipulating_and_extracting_data_from_SQW_files_and_objects#cut_sqw>`__.
+
+Usage
+-----
+
+**Example - Contrived example using projections:**
+
+.. testcode:: Example4D
+
+   to_cut = CreateMDWorkspace(Dimensions=4, Extents=[-1,1,-1,1,-1,1,-10,10], Names="H,K,L,E", Units="U,U,U,V")
+   # Add two fake peaks so that we can see the effect of the basis transformation
+
+   FakeMDEventData(InputWorkspace='to_cut', PeakParams=[10000,-0.5,0,0,0,0.1])
+
+   FakeMDEventData(InputWorkspace='to_cut', PeakParams=[10000,0.5,0,0,0,0.1])
+    
+
+   SetUB(Workspace=to_cut, a=1, b=1, c=1, alpha=90, beta=90, gamma=90)
+   SetSpecialCoordinates(InputWorkspace=to_cut, SpecialCoordinates='HKL')
+   projection = CreateEmptyTableWorkspace()
+   # Correct number of columns, and names
+
+   projection.addColumn("double", "u")
+   projection.addColumn("double", "v")
+
+   projection.addColumn("double", "w")
+   projection.addColumn("double", "offsets")
+
+   projection.addColumn("str", "type")
+
+   projection.addRow([1,-1, 0, 0, "r"])
+
+   projection.addRow([1, 1, 0, 0, "r"])
+   projection.addRow([0, 0, 1, 0, "r"])  
+   
+   # Apply the cut
+
+   out_md = CutMD(to_cut, Projection=projection, P1Bin=[0.1], P2Bin=[0.1], P3Bin=[0.1], P4Bin=[-5,5], NoPix=True)
+   print 'number of dimensions', out_md.getNumDims()
+   print 'number of dimensions not integrated', len(out_md.getNonIntegratedDimensions())
+   dim_dE = out_md.getDimension(3)
+   print 'min dE', dim_dE.getMaximum()
+   print 'max dE', dim_dE.getMinimum()
+
+Output:
+
+.. testoutput:: Example4D
+
+   number of dimensions 4
+   number of dimensions not integrated 3
+   min dE 5.0
+   max dE -5.0
+
+.. categories::