Multi-bore jumper interface

We claim: 1. A connecting interface for coupling a multi-bore jumper to equipment at a seabed with a seal plate, the interface comprising: a rotatable hub; an alignment pin; a central bore terminating adjacent a central location of the hub, the hub rotatable independently, both about the central bore and relative another hub at another interface at an opposite end of the jumper secured to other equipment at the seabed; and at least one perimeter bore terminating at a perimeter location of the hub, the perimeter bore movable with the hub during any rotation thereof, the seal plate having a coupler to couple to the perimeter bore and an orifice for receiving the alignment pin to effect the rotation of the hub. 2. The interface of claim 1 wherein the central bore is a production pipe and the at least one perimeter bore is a bore to supply one of electric and hydraulic capacity. 3. The interface of claim 1 wherein the interface is incorporated into one of the jumper and the equipment at the seabed. 4. The interface of claim 3 wherein the equipment at the seabed is one of a tree, a manifold and a pipeline end termination. 5. The interface of claim 1 wherein the at least one orifice is of a greater diameter at a surface of the plate than that of the alignment pin, the orifice of a funnel shape below the surface. 6. The interface of claim 1 wherein the alignment pin extends further from a base of the hub than the perimeter bore to effect the rotation in advance of the coupler coupling to the perimeter bore. 7. A multi-bore tie-in for coupling to first and second pieces of subsea equipment at a seabed to provide multi-bore communication therebetween, the tie-in comprising: a first interface with a rotating hub having an alignment pin at a first end of the tie-in, an orifice at a seal plate of the first piece of equipment to receive the pin, the hub about a centrally located bore for coupling to the first piece of equipment; and a second interface with a rotating hub having an alignment pin at a second end of the tie-in, the second end opposite the first end, an orifice at a seal plate of the second piece of equipment to receive the pin, the hub about a central bore for coupling to the second piece of equipment, the receiving of the pins by the orifices to effect rotation of the hubs independently of the centrally located bores and one another for the coupling of the tie-in to the pieces of equipment. 8. The multi-bore tie-in of claim 7 further comprising: protective casing structure running between the first and second interfaces; at least one perimeter bore running through the casing structure and intersecting each of the rotating hubs; and insulation in the casing structure with void spaces at perimeter locations to facilitate twisting of the at least one perimeter bore about the central bore during rotation of one of the rotating hubs. 9. The multi-bore tie-in of claim 8 wherein the at least one perimeter bore is more flexible than the central bore. 10. The multi-bore tie-in of claim 7 wherein the tie-in is one of a vertical jumper, an M-shaped jumper and a half M-shaped jumper. 11. The multi-bore tie-in of claim 7 wherein the first piece of equipment is at a given distance from the second piece of equipment at the seabed, the tie-in being less than about twice the given distance in length. 12. The multi-bore tie-in of claim 7 wherein the tie-in is distanced from the seabed during coupling thereof to each of the pieces of equipment. 13. A method comprising: lowering a vertical multi-bore jumper toward equipment at a seabed; securing a first interface of the jumper to a first piece of the equipment; securing a second interface of the jumper to a second piece of the equipment; and aligning perimeter bores of rotatable hubs of the interfaces with couplings of the first and second pieces of equipment during the securing of the interfaces, the aligning including aligning centrally located bores at the interfaces with centrally located bores at the pieces of equipment and advancing guide pins at one of the rotatable hubs and a seal plate at one of the pieces of equipment into orifices at the other of the rotatable hubs and the seal plates to rotate the hubs independently of the centrally located bores one another for coupling of perimeter bores to couplers at the seal plates. 14. The method of claim 13 wherein the lowering comprises advancing a single support beam securing the jumper toward the seabed. 15. The method of claim 13 further comprising operating over multiple bores of the jumper between the first and second pieces of equipment. 16. The method of claim 15 wherein the operating comprises exercising one of electric and hydraulic control over an equipment feature. 17. The method of claim 15 wherein the operating comprises carrying out an application selected from a group consisting of power storage, communications, gas lift, pressurization and chemical injection.