Turbine component including mixed cooling nub feature

The invention claimed is: 1. A component for a gas turbine engine comprising: at least one cooled surface configured to contact a cooling flow, the at least one cooled surface being recessed relative to one or more adjacent surfaces; the at least one cooled surface having a base surface and a plurality of cooling nubs disposed about the base surface, each cooling nub in the plurality of cooling nubs being an extension of the at least one cooled surface and protruding outward from the at least one cooled surface; the plurality of cooling nubs are distributed about said base surface in a mixed pattern, wherein the mixed pattern includes a first set of cooling nubs and a second set of cooling nubs, each cooling nub in the second set of cooling nubs being larger than each cooling nub in the first set of cooling nubs, and wherein the cooling nubs in the first set of cooling nubs are positioned closer to an edge of the at least one cooled surface than the cooling nubs in the second set of cooling nubs; and wherein said mixed pattern is defined at least in part by each cooling nub including a plurality of distances defined between the cooling nub and each other cooling nub adjacent to the cooling nub, and the plurality of distances is non-uniform. 2. The component of claim 1 , wherein said mixed pattern further includes at least two distinct cooling nub geometries. 3. The component of claim 2 , wherein said at least two distinct cooling nub geometries include at least one of: multiple distinct cross sectional geometries and multiple distinct geometrical configurations. 4. The component of claim 1 , wherein each of said at least one cooled surfaces is a single cast component, and each of said cooling nubs is integral to said base surface. 5. The component of claim 4 , wherein said cast component includes post-cast finishing. 6. The component of claim 1 , wherein the cooling nubs extend outward from said at least one cooled surface into said cooling flow. 7. A gas turbine engine comprising: a compressor section; a combustor section fluidly connected to the compressor section; a turbine section fluidly connected to the combustor section; at least one convectively cooled component within said gas turbine engine, the at least one convectively cooled component including at least one cooled surface configured to contact a cooling flow, the at least one cooled surface including a plurality of cooling nubs arranged in a mixed pattern and being recessed relative to one or more adjacent surfaces, each cooling nub in the plurality of cooling nubs being an extension of the at least one cooled surface and protruding outward from the at least one cooled surface and the mixed pattern includes a first set of cooling nubs and a second set of cooling nubs, each cooling nub in the second set of cooling nubs being larger than each cooling nub in the first set of cooling nubs, and wherein the cooling nubs in the first set of cooling nubs are positioned closer to an edge of the at least one cooled surface than the cooling nubs in the second set of cooling nubs; and wherein said mixed pattern is defined at least in part by each cooling nub including a plurality of distances defined between the cooling nub and each other cooling nub adjacent to the cooling nub, and the plurality of distances is non-uniform. 8. The gas turbine engine of claim 7 , wherein said mixed pattern further includes at least two distinct cooling nub geometries. 9. The gas turbine engine of claim 8 , wherein said at least two distinct cooling nub geometries include at least one of: multiple distinct cross sectional geometries and multiple distinct geometrical configurations. 10. The gas turbine engine of claim 7 , wherein each of said at least one cooled surfaces is a single cast component, and each of said cooling nubs is integral to said at least one cooled surface.