Rivet-less rotor clip design

The invention claimed is: 1. A rotor clip, comprising: a first tab engagement portion; a monolithic undercut coupling portion having a flat bottom surface and being coupled to said first tab engagement portion; and a second tab engagement portion coupled to said undercut coupling portion, wherein said monolithic undercut coupling portion has a first bump having a first curved surface extending upward from the flat bottom surface to the first tab engagement portion and a second bump having a second curved surface extending upward from the flat bottom surface to the second tab engagement portion, the first bump and the second bump being entirely above the flat bottom surface, wherein said first tab engagement portion includes a first single tab and said second tab engagement portion includes a second single tab. 2. The rotor clip of claim 1 , wherein said undercut coupling portion is used to engage said rotor clip into a slot of a rotor disk. 3. The rotor clip of claim 1 , wherein said first bump is partially circular and said second bump is partially circular. 4. The rotor clip of claim 1 , wherein said rotor clip is held circumferentially onto a rotor disk by using said first tab engagement portion and said second tab engagement portion. 5. The rotor clip of claim 1 , wherein said first tab engagement portion is located on a first side of said rotor clip and said second tab engagement portion is located on a second side of said rotor clip. 6. The rotor clip of claim 1 , wherein said first tab engagement portion includes a set of two tabs and said second tab engagement portion includes a set of two tabs. 7. The rotor clip of claim 1 , wherein said rotor clip is configured to be installed into a slot of a rotor disk by snapping a first set of tabs of said first tab engagement portion onto a first rotor lug of said rotor disk and a second set of tabs of said second tab engagement portion onto a second rotor lug of said rotor disk. 8. The rotor clip of claim 1 , wherein said rotor clip is installable into a slot of a rotor disk by engaging said undercut coupling portion and snapping a first set of tabs of said first tab engagement portion onto a first rotor lug of said rotor disk and a second set of tabs of said second tab engagement portion onto a second rotor lug of said rotor disk. 9. A method of inserting a rotor clip into a rotor disk assembly, comprising: aligning said rotor clip having a flat bottom surface to a slot located on a radially outward portion of said rotor disk assembly; bending a first tab engagement portion and a second tab engagement portion of said rotor clip circumferentially outward and pressing said rotor clip radial inward toward the slot; engaging a first bump of said rotor clip a first undercut of the slot and a second bump of said rotor clip with a second undercut of the slot by pressing said rotor clip radially inward; and snapping a first tab engagement portion of said rotor clip and a second tab engagement portion of said rotor clip to contribute to positioning and retaining an undercut coupling portion of said rotor clip radially within said undercut engagement portion of said slot. 10. The method of claim 9 , wherein said undercut engagement portion has a first circular edge and a second circular edge positioned to receive said undercut coupling portion. 11. A rotor disk assembly, comprising: a rotor disk comprising: a first rotor lug; and a second rotor lug circumferentially spaced from said first rotor lug and defining a slot therebetween, wherein said slot is located on a radially outward portion of said rotor disk and said slot has an undercut engagement portion defined by said first rotor lug and said second rotor lug; and a rotor clip comprising: a first tab engagement portion disposed in the a first portion of the undercut engagement portion defined by the first rotor lug; a monolithic undercut coupling portion having a flat bottom surface and being coupled to said first tab engagement portion; and a second tab engagement portion coupled to said undercut coupling portion, the second tab engagement portion being disposed in a second undercut engagement portion defined by the second rotor lug, wherein said monolithic undercut coupling portion has a first bump having a first curved surface extending upward from the flat bottom surface to the first tab engagement portion and a second bump having a second curved surface extending upward from the flat bottom surface to the second tab engagement portion, wherein said first tab engagement portion includes a first single tab and said second tab engagement portion includes a second single tab.