Electric machine with stator having multi-tiered end turns

What is claimed is: 1. A multi-phase electric machine comprising: a stator operably coupled with a rotor wherein the rotor is rotatable relative to the stator, the stator including a stator core and a plurality of windings defining a plurality of phases; the stator core defining a plurality of axially and radially extending slots which circumscribe the stator core and encircle a rotational axis of the electric machine, each of the slots defining a plurality of layer positions located at different radial distances from the rotational axis; the plurality of windings being mounted in the slots of the stator core with each phase of the plurality of phases defining a plurality of poles circumferentially distributed about the stator core, each of the phases being defined by a portion of the plurality of windings, wherein each winding defines a plurality of wraps wherein each of the wraps circumscribes the stator core with the winding extending through one of the slots in each of the plurality of poles of one of the phases; wherein each winding defines a plurality of end turns which extend axially beyond the stator core wherein each of the plurality of end turns defines an axially extending end turn height; wherein the plurality of layer positions form a plurality of layer position groups, each of the layer position groups being formed by a plurality of radially adjacent layer positions; wherein the plurality of wraps defined by each winding includes at least one wrap disposed in each respective one of the plurality of layer position groups; wherein for each respective layer position group, the windings disposed in the plurality of radially adjacent layer positions define an end turn height which becomes progressively taller in a radially inward direction; and wherein the end turn height of the winding disposed in a radially outermost layer position of each of the layer position groups is less than the end turn height of the winding disposed in a radially innermost layer position of each of the layer position groups. 2. The electric machine of claim 1 wherein the end turn heights of the radially outermost layer position of each of the plurality of layer position groups are all substantially equal to each other. 3. The electric machine of claim 1 wherein the end turn heights of the radially innermost layer position of each of the plurality of layer position groups are all substantially equal to each other. 4. The electric machine of claim 3 wherein the end turn heights of the radially outermost layer position of each of the plurality of layer position groups are all substantially equal to each other. 5. The electric machine of claim 4 wherein each of the layer position groups has the same number of layer positions. 6. The electric machine of claim 5 wherein each phase includes four windings, each winding being formed by two wires connected together at the radially inner ends of the wires. 7. The electric machine of claim 1 wherein each winding defines a linear length equivalent to an unbent length of the winding, the linear length of each of the windings being substantially equal to each other. 8. The electric machine of claim 7 wherein the plurality of wraps defined by each winding each define a linear length equivalent to an unbent length of the corresponding wrap and wherein each winding includes wraps defining a plurality of differing linear lengths. 9. The electric machine of claim 8 wherein, for each individual winding, the linear length of one of the wraps disposed in a first layer position group positioned radially outwardly of a second layer position group is longer than the linear length of the wrap disposed in the second layer position group. 10. The electric machine of claim 8 wherein, for each wrap in one of the plurality of layer position groups, the wraps in the one layer position group define the same linear length. 11. The electric machine of claim 10 wherein the linear length defined by the wraps in each of the plurality of layer position groups becomes progressively shorter in the radially inward direction. 12. The electric machine of claim 11 wherein each phase includes four windings, each winding being formed by two wires connected together at the radially inner ends of the wires. 13. The electric machine of claim 1 wherein the plurality of wraps defined by each winding each define a linear length equivalent to an unbent length of the corresponding wrap and wherein each winding includes wraps defining a plurality of differing linear lengths. 14. The electric machine of claim 13 wherein the linear length defined by the wraps in each of the plurality of layer position groups becomes progressively shorter in the radially inward direction. 15. The electric machine of claim 1 wherein the plurality of wraps defined by the plurality of windings each define a linear length equivalent to an unbent length of the corresponding wrap and wherein the plurality of wraps define a plurality of different linear lengths. 16. The electric machine of claim 15 wherein the plurality of different linear lengths is equal to the plurality of layer position groups and wherein, for each wrap in one of the plurality of layer position groups, the wraps in the one layer position group define the same linear length. 17. The electric machine of claim 16 wherein the linear length defined by the wraps in each of the plurality of layer position groups becomes progressively shorter in the radially inward direction.