Vertical insertion interconnection system with ring connector for high-speed data transmission

What is claimed: 1 . An interconnect module configured to mate with a ring connector, the interconnect module comprising: a module connector housing mounted to a module substrate, the module connector housing having four sides, wherein the module connector housing has two rows of electrical contacts arranged on two sides of the four sides of the module connector housing, and the two rows of electrical contacts are configured to mate with electrically conductive ring contacts of the ring connector; an interconnect module housing carried by the module substrate; an optical engine including a ferrule mate; and a rotatable latch mounted to the interconnect module housing, the rotatable latch configured to releasably compress an optical connector that is configured to receive optical fibers against the ferrule mate, such that the ferrule mate couples light between an optical component of the optical engine and the optical fibers. 2 . The interconnect module of claim 1 , wherein the ferrule mate defines a first side, a second side, a third side, and a fourth side. 3 . The interconnect module of claim 2 , wherein the first side comprises at least one first recess. 4 . The interconnect module of claim 3 , wherein the first side defines at least one of 1) at least one first focusing lens and 2) at least one collimating lens positioned in the at least one first recess. 5 . The interconnect module of claim 4 , wherein the first side defines at least one of 1) at least one second focusing lens and 2) at least one second collimating lens positioned in the at least one first recess. 6 . The interconnect module of claim 3 , wherein the first side defines one of 1) at least one second recess positioned adjacent to the at least one first recess, and 2) at least one second recess spaced apart from the at least one first recess. 7 . The interconnect module of claim 3 , further comprising at least one spacing reference that is positioned adjacent to the at the least one first recess. 8 . The interconnect module of claim 4 , further comprising an optically transparent plate positioned adjacent to the first side and defining a first sealed gap between the optically transparent plate and the first focusing lens or the first collimating lens. 9 . The interconnect module of claim 2 , wherein the second side defines at least one third recess. 10 . The interconnect module of claim 2 , wherein the third side defines at least one reflection surface. 11 . The interconnect module of claim 10 , wherein the reflection surface is intentionally degraded by laser ablation. 12 . The interconnect module of claim 10 , further comprising a reflection surface cover plate positioned over the at least one reflection surface. 13 . The interconnect module of claim 12 , further comprising a second sealed gap defined between the reflection surface and the reflection surface cover plate. 14 . The interconnect module of claim 12 , wherein the reflection surface is intentionally degraded by laser ablation after the reflection surface cover plate is positioned adjacent to the third surface. 15 . An interconnect module of claim 2 , wherein: the optical connector includes a ferrule, and when the optical connector is mated to the interconnect module and the rotatable latch is in an engaged position, opposed forces applied to a back of the ferrule and to the fourth side of the ferrule mate cause the rotatable latch to compress the ferrule and the ferrule mate together. 16 . The interconnect module of claim 1 , wherein the rotatable latch is floating, yet captive, within the interconnect module housing. 17 . The interconnect module of claim 1 , wherein the interconnect module housing comprises a lid that carries the ferrule mate, wherein an intersection between the ferrule mate and the lid experiences no sheer stress when the rotatable latch is closed. 18 . The interconnect module of claim 17 , wherein the lid is optically transparent. 19 . The interconnect module of claim 18 , wherein an electro-optical element is flip-chip mounted to the lid. 20 . The interconnect module of claim 19 , further comprising a heat spreader including a riser that is configured to conduct unwanted heat from the electro-optical element to the heat spreader. 21 . The interconnect module of claim 1 , wherein the optical connector and the ferrule mate are adjacent each other along a direction, and the optical connector is disposed between a latch retention surface of the latch and the ferrule mate with respect to the direction when the latch is closed. 22 . The interconnect module of claim 1 , wherein the latch is configured to apply a force to a back side of the optical connector that compresses the optical connector against the ferrule mate. 23 . The interconnect module of claim 1 , wherein the latch is rotationally retained by the interconnect module housing so as to rotate about a pivot point. 24 . The interconnect module of claim 1 , wherein the rotatable latch comprises an axle that is received in a guide hole defined by the interconnect module housing, wherein the guide hole has an inner diameter that is greater than an outer diameter of the axle. 25 . The interconnect module of claim 1 , wherein the latch comprises a bridge that limits or prevents the optical connector from rotating when an upward or downward force is applied to the optical fibers. 26 . The interconnect module of claim 1 , wherein the ferrule mate is optically transparent.