- \image latex NonCoincident_small.eps "Example showing the transfer from a field based on a quadrangular mesh to a triangular mesh. In a P0-P0 interpolation, to obtain the value on a triangle, the values on quadrangles are weighted by their intersection area and summed."
+ The name "InterpKernelDEC" comes from the fact that this class uses exactly the same algorithms
+ as the sequential remapper. Both this class and the sequential
+ \ref MEDCoupling::MEDCouplingRemapper "MEDCouplingRemapper" are built on top of the %INTERP_KERNEL
+ algorithms (notably the computation of the intersection volumes).
+
+ Among the important properties inherited from the parent abstract class \ref DisjointDEC-det "DisjointDEC",
+ the two \ref MPIProcessorGroup-det "processor groups" (source and target) must have a void intersection.
+
+ \image html NonCoincident_small.png "Transfer of a field supported by a quadrangular mesh to a triangular mesh".
+
+ \image latex NonCoincident_small.eps "Transfer of a field supported by a quadrangular mesh to a triangular mesh"
+
+ In the figure above we see the transfer of a field based on a quadrangular mesh to a new field supported by
+ a triangular mesh. In a P0-P0 interpolation, to obtain the value on a triangle, the values on the
+ quadrangles are weighted by their intersection area and summed.