Valve lifter anti-rotation device having cantilever bridge

What is claimed is: 1. A compound collar for limiting in-service rotation of valve lifters in an engine comprising: a one-piece collar body including a mounting sleeve, a guide sleeve, a bridge attaching the guide sleeve to the mounting sleeve, and an outer peripheral surface formed in part upon each of the mounting sleeve, the guide sleeve, and the bridge; the mounting sleeve including a first inner peripheral surface forming a first lifter bore, for receipt of a first valve lifter, the first lifter bore defining a first collar axis, a first major diameter, and a first minor diameter; the guide sleeve including a second inner peripheral surface forming a second lifter bore, for receipt of a second valve lifter, the second lifter bore defining a second collar axis, a second major diameter, and a second minor diameter; the first lifter bore and the second lifter bore are congruent; and the second lifter bore is enlarged, relative to the first lifter bore, based on a size of at least one of the second major diameter or the second minor diameter compared to sizes of the first major diameter and the first minor diameter. 2. The compound collar of claim 1 wherein the outer peripheral surface is curvilinear upon each of the mounting sleeve and the guide sleeve. 3. The compound collar of claim 2 wherein: the one-piece collar body includes an upper end surface formed in part upon each of the mounting sleeve, the guide sleeve, and the bridge; the guide sleeve includes a first lower end surface arranged opposite to the upper end surface; and the mounting sleeve includes a downwardly depending sleeve wall having a second lower end surface arranged opposite to the upper end surface. 4. The compound collar of claim 3 wherein: the first inner peripheral surface has a full axial length extending from the upper end surface to the second lower end surface; and the first major diameter has a smaller size along a minority of the full axial length defining an interference-fit length, and a larger size along a majority of the full axial length defining a clearance-fit length. 5. The compound collar of claim 4 wherein: the second lower end surface is located axially outward of the first lower end surface; and the second lower end surface is planar and extends circumferentially around the first lifter bore upon the sleeve wall, and forms an annular stop surface to contact an annular stop upon the first valve lifter. 6. The compound collar of claim 2 wherein: the one-piece body has a footprint, in an axial projection plane, including a first circular arc formed by the outer peripheral surface upon the mounting collar, and a mirror-image circular arc formed by the outer peripheral surface upon the guide sleeve; and each of the first circular arc and the mirror-image circular arc originates and terminates at the bridge. 7. The compound collar of claim 1 wherein each of the first inner peripheral surface and the second inner peripheral surface includes arcuate inner walls, defining the respective first major diameter and second major diameter, in an alternating arrangement with planar inner walls, defining the respective first minor diameter and second minor diameter. 8. The compound collar of claim 7 wherein the second lifter bore is enlarged, relative to the first lifter bore, based on a size of both the second major diameter and the second minor diameter compared to sizes of the first major diameter and the first minor diameter. 9. The compound collar of claim 8 wherein the second major diameter is at least 3% larger than the first major diameter, and the second minor diameter is at least 6% larger than the first minor diameter. 10. A valve lifter assembly comprising: a compound collar for limiting in-service rotation of valve lifters, including a mounting sleeve having a first inner peripheral surface forming a first lifter bore, a guide sleeve having a second inner peripheral surface forming a second lifter bore, a bridge attaching the guide sleeve to the mounting sleeve, and an outer peripheral surface formed in part upon each of the mounting sleeve, the guide sleeve, and the bridge; a valve lifter including a first lifter end and a second lifter end, a lifting surface facing a direction of the first lifter end, a cam follower mounted to the second lifter end, and the first lifter end is positionable in either of the first lifter bore or the second lifter bore; and the second lifter bore is enlarged relative to the first lifter bore and congruent with the first lifter bore, such that the valve lifter has an interference-fit installation configuration with the mounting sleeve and a slip-fit installation configuration with the guide sleeve. 11. The valve lifter assembly of claim 10 wherein: the first lifter bore defines a first collar axis; the first inner peripheral surface defines a full axial length; the first lifter end is interference-fitted with the mounting sleeve within the first lifter bore; an interference-fit length between the first lifter end and the mounting sleeve is equal to a minority of the full axial length; and a clearance-fit length between the first lifter end and the mounting sleeve is equal to a majority of the full axial length. 12. The valve lifter assembly of claim 10 wherein the mounting sleeve includes a downwardly depending sleeve wall in contact with an annular stop on the valve lifter, and a clearance extends radially between the downwardly depending sleeve wall and the valve lifter. 13. The valve lifter assembly of claim 12 wherein each of the first inner peripheral surface and the second inner peripheral surface includes arcuate inner walls in an alternating arrangement with planar inner walls. 14. The valve lifter assembly of claim 13 wherein: the first lifter bore defines a first collar axis, a first major diameter between the respective arcuate inner walls, and a first minor diameter between the respective planar inner walls; the second lifter bore defines a second collar axis, a second major diameter between the respective arcuate inner walls, and a second minor diameter between the respective planar inner walls; and the second lifter bore is enlarged, relative to the first lifter bore, based on a size of at least one of the second major diameter or the second minor diameter compared to sizes of the first major diameter and the first minor diameter. 15. The valve lifter assembly of claim 14 wherein the second lifter bore is enlarged, relative to the first lifter bore, based on a size of both the second major diameter and the second minor diameter compared to sizes of the first major diameter and the first minor diameter. 16. The valve lifter assembly of claim 10 wherein: the compound collar has a footprint, in an axial projection plane, including a first circular arc formed by the outer peripheral surface upon the mounting sleeve, and a mirror-image circular arc formed by the outer peripheral surface upon the guide sleeve; and each of the first circular arc and the second circular arc originates and terminates at the bridge. 17. An engine valve actuation system comprising: a camshaft including a first cam and a second cam, and rotatable about a cam axis of rotation; a compound collar including a mounting sleeve having a first inner peripheral surface forming a first lifter bore, a guide sleeve having a second inner peripheral surface forming a second lifter bore, and a bridge attaching the guide sleeve to the mounting sleeve; a first valve lifter interference-fitted within the first lifter bore and including a l