Vehicle driveline component having a lubrication de-aerator

What is claimed is: 1. A vehicle driveline component comprising: a housing that defines a cavity and a sump, the housing having a plurality of internal surfaces; a rotary power transmission system received in the cavity, the rotary power transmission system including a plurality of gears that are in meshing engagement; a lubricant received in the sump, the lubricant being employed to lubricate the rotary power transmission system; and a lubrication de-aerator received in the housing at a location that receives lubricant slung from the rotary power transmission system, the lubrication de-aerator having at least one matrix of de-aeration cells that extend between an upper surface and a lower surface, each of the de-aeration cells having a cell inlet, which is formed through the upper surface, and a cell outlet that is formed through the lower surface, each of the de-aeration cells tapering between its cell inlet and its cell outlet. 2. The vehicle driveline component of claim 1 , wherein the lubrication de-aerator has a plurality of matrices of de-aeration cells, wherein the matrices of de-aeration cells are spaced vertically from one another. 3. The vehicle driveline component of claim 2 , wherein vertically adjacent matrices of de-aeration cells are offset from one another such the cell outlets of each pair of vertically adjacent matrices are not vertically in-line with one another. 4. The vehicle driveline component of claim 3 , wherein each of the de-aeration cells has a longitudinal axis, and wherein each of the matrices are offset from one another such the cell inlets of each pair of vertically adjacent matrices are not vertically in-line with one another. 5. The vehicle driveline component of claim 1 , wherein the vertically adjacent matrices of de-aeration cells are spaced apart by a plurality of legs, each of the legs having a first end, which is received into a leg aperture formed into a first one of the matrices of de-aeration cells, and second end that is received into an associated one of the de-aeration cells in a second one of the matrices of de-aeration cells. 6. The vehicle driveline component of claim 5 , wherein the second end of each of the legs contacts an interior surface of an associated one of the de-aeration cells and wherein at least one drain channel is formed between the second end and the interior surface that permits the lubricant to drain around the second end to the cell outlet of the associated one of the de-aeration cells. 7. The vehicle driveline component of claim 1 , wherein each of the de-aeration cells has a longitudinal axis, and wherein each of the de-aeration cells has a non-circular cross-sectional shape in a cross-section taken perpendicular to the longitudinal axis. 8. The vehicle driveline component of claim 7 , wherein the non-circular cross-sectional shape is hexagonal. 9. The vehicle driveline component of claim 1 , wherein at least one of the plurality of gears rotates through the lubricant in the sump during operation of the vehicle driveline component. 10. The vehicle driveline component of claim 1 , further comprising an electric motor received in the housing, the electric motor having a motor output shaft, and wherein one of the plurality of gears is coupled to the motor output shaft for rotation therewith. 11. The vehicle driveline component of claim 1 , wherein the rotary power transmission system includes a differential assembly. 12. A vehicle driveline component comprising: a housing defining a cavity and a sump; a rotary power transmission system received in the cavity, the rotary power transmission system including a plurality of gears that are in meshing engagement; a lubricant received in the sump, the lubricant being employed to lubricate the rotary power transmission system; and a lubrication de-aerator received in the cavity, the lubrication de-aerator having a plurality of matrices of de-aeration cells that are spaced vertically apart from one another, each matrix of de-aeration cells having a plurality of de-aeration cells that extend between an upper surface and a lower surface, each of the de-aeration cells having a cell inlet, which is formed through the upper surface, and a cell outlet that is formed through the lower surface, each of the de-aeration cells tapering between its cell inlet and its cell outlet; wherein vertically adjacent matrices of de-aeration cells are offset from one another such the cell outlets of each pair of vertically adjacent matrices are not vertically in-line with one another; wherein each of the de-aeration cells has a longitudinal axis, and wherein each of the matrices are offset from one another such the cell inlets of each pair of vertically adjacent matrices are not vertically in-line with one another; and wherein each of the de-aeration cells has a non-circular cross-sectional shape in a cross-section taken perpendicular to the longitudinal axis. 13. The vehicle driveline component of claim 12 , wherein the vertically adjacent matrices of de-aeration cells are spaced apart by a plurality of legs, each of the legs having a first end, which is received into a leg aperture formed into a first one of the matrices of de-aeration cells, and second end that is received into an associated one of the de-aeration cells in a second one of the matrices of de-aeration cells. 14. The vehicle driveline component of claim 13 , wherein the second end of each of the legs contacts an interior surface of an associated one of the de-aeration cells and wherein at least one drain channel is formed between the second end and the interior surface that permits the lubricant to drain around the second end to the cell outlet of the associated one of the de-aeration cells. 15. The vehicle driveline component of claim 12 , wherein the non-circular cross-sectional shape is hexagonal. 16. The vehicle driveline component of claim 12 , wherein at least one of the plurality of gears rotates through the lubricant in the sump during operation of the vehicle driveline component. 17. The vehicle driveline component of claim 12 , further comprising an electric motor received in the housing, the electric motor having a motor output shaft, and wherein one of the plurality of gears is coupled to the motor output shaft for rotation therewith. 18. The vehicle driveline component of claim 12 , wherein the rotary power transmission system includes a differential assembly.