This is normally what we did for customer, what do you think?

 Description of the work
 Assumptions: (type of model used (thin shell, solid, etc), material, process conditions (melt
and mold temperature, fill time, pack and hold profile)
 Image of the model used
 Part thickness plot
 Feed system details including sprue, runner and gate sizes
 Filling Results. Include the following when available:
 Fill time (animation 50 increments)
 Fill time at 96% or when the first cavity fills for multiple cavity tools
 Weld Lines
 Air Traps
 Pressure to fill or at v/p-switchover
 Pressure at injection location XY Plot
 Pressure (time dependent)
 Clamp Force XY Plot
 Temperature at Flow Front
 Frozen Layer Fraction
 Time To Freeze or Cooling Time Variance
 Grow From for multiple gated parts
 Sink Mark Depth or Sink Index
 Volumetric Shrinkage at ejection
 Orientation at skin
 Bulk Shear rate (peak)
 Shear Rate in the gate XY plot
 Shear Stress at wall (peak)
 Summary, including cavity and runner volumes
 Cooling Results (if requested)
 Top and Bottom Surface Temperature for Mold and Part (Midplane)
 Temperature, Part and Mold (Dual Domain)
 Time to reach ejection temperature, Part and Cold Runner
 Mold-Melt Temperature difference, Part
 Average Temperature, Part
 Circuit Coolant Temperature (Core and Cavity)
 Circuit Flow rate and Reynolds Number
 Cooling Time Variance (Adviser Results)
 Temperature Difference or Variance (Adviser, Midplane)
 Warp Results (if requested)
 All Effects, X, Y and Z components
 Differential Cooling, X, Y and Z components
 Differential Shrinkage, X, Y and Z components
 Material Orientation, X, Y and Z components
 Corner Effects
 Conclusions and recommendations.