High performance stacked connector

What is claimed is: 1. A stacked connector, comprising: a housing comprising: a first sidewall and a second sidewall, opposite the first sidewall; a mating face extending between the first sidewall and the second sidewall, the mating face comprising a first slot and a second slot; a mounting face, perpendicular to the mating face and extending between the first sidewall and the second sidewall; a top face, opposite the mounting face and extending between the first sidewall and the second sidewall; and a plurality of conductive elements, each of the plurality of conductive elements comprising a mating contact portion, a contact tail and an intermediate portion joining the mating contact portion and the contact tail, wherein: the mating contact portions are exposed within the first slot and the second slot; the contact tails are exposed at the mounting face; at least one of the first sidewall or the second sidewall comprises a segment adjacent the mounting face and a portion extending from the segment to the top face; the portion comprises at least one airflow opening therethrough; and the intermediate portions of plurality of conductive elements provide an airflow path therethrough. 2. The stacked connector of claim 1 , wherein: the at least one airflow opening occupies at least fifty percent of the portion of the at least one of the first sidewall or the second sidewall. 3. The stacked connector of claim 1 , wherein: the portion of the at least one of the first sidewall or the second sidewall is set back from the segment. 4. The stacked connector of claim 3 , wherein: the at least one of the first sidewall or the second sidewall comprises both the first sidewall and the second sidewall. 5. The stacked connector of claim 4 , in combination with a cage comprising first and second sidewalls wherein the first and second sidewalls of the cage abut the segments of the first sidewall and the second sidewall of the housing. 6. The stacked connector of claim 4 , wherein: the connector further comprises a plurality of lead assemblies, each of the lead assemblies comprising an insulative member holding conductive elements of the plurality of conductive elements in a row; and the insulative member of each of the plurality of lead assemblies is coupled to the segment of the first sidewall and the second sidewall. 7. The stacked connector of claim 1 , wherein: the mating face comprises a region between the first slot and the second slot with at least one opening there through; and the at least one opening through the mating face collectively occupy greater than 70% of the region of the front face between the first slot and the second slot. 8. The stacked connector of claim 1 , wherein: the top face comprises a plurality of grooves extending parallel to the first sidewall and the second side wall. 9. A method of operating an electronic device comprising: an enclosure comprising a panel having an opening therethrough; an I/O connector assembly comprising a connector and a cage mounted to a printed circuit board exposed through an opening in the panel, wherein: the cage comprises at least one channel; and the connector comprises a plurality of conductive elements, each of the plurality of conductive elements comprising a mating contact portion exposed within a slot disposed at an end of a channel of the at least one channel, a contact tail exposed at a mating face of the connector, and an intermediate portion joining the mating contact portion and the contact tail, a transceiver positioned within the channel of the at least one channel, a portion of the transceiver inserted into the slot, the method comprising: operating the transceiver at a data rate in excess of 110 Gbps; and expelling air from the enclosure so as to cause a flow of air along a first path and a second path through the cage, the first path comprising a segment through openings in sidewalls of the connector and through a channel between the sidewalls of the connector and sidewalls of the cage, the second path comprising a segment through a hole in a back face of the cage, the hole disposed behind the plurality of conductive elements. 10. The method of operating an electronic device of claim 9 , wherein: expelling air further comprises causing a flow of air along a third path through the cage, the third path comprising a segment through openings in a top face of the connector and through channels between the top face of the connector and a top surface of the cage. 11. The method of operating an electronic device of claim 10 , wherein: expelling air further comprises causing a flow of air along a fourth path through the cage, the fourth path comprising a segment through openings in a front face of the connector. 12. A stacked connector of the type having a mounting face and a mating face perpendicular to the mounting face and sides perpendicular to both the mating face and the mounting face, the connector comprising: a housing comprising: at least a first slot portion and a second slot portion, wherein each of the first and second slot portions comprises a slot passing therethrough and walls bounding the slot; opposing first and second side walls bounding a cavity within the housing, wherein the first and second sidewalls support the first slot portion and the second slot portion at the mating face such that at least 50% of the mating face of the housing between the first slot portion and the second slot portion is open to the passage of air into the cavity; a plurality of lead assemblies within the cavity, the plurality of lead assemblies disposed adjacent to a portion of the first side wall that bounds an airflow path within the cavity, wherein each of the plurality of lead assemblies comprises: a plurality of conductive elements; and at least one insulative member holding the plurality of conductive elements with gaps between the conductive elements in the row direction. 13. The stacked connector of claim 12 , wherein: greater than 90% of the rear of the housing is open so as to provide an airflow passage from the cavity to an exterior of the housing. 14. The stacked connector of claim 13 , wherein: the first and second opposing sidewalls each further comprises a web of elongated members extending from the segment adjacent the mounting face such that greater than 40% of the first and second side walls are open to the passage of air between the cavity and an exterior of the housing. 15. The stacked connector of claim 13 , wherein: the first and second opposing sidewalls each comprises a segment adjacent the mounting face; each of the plurality of leadframe assemblies engages the housing at a respective slot portion of the first and second slot portions and at the segment of at least one of the first and second opposing sidewalls. 16. The stacked connector of claim 15 , wherein the housing further comprises: a platform extending between the first and second opposing sidewalls between the first and second slot portions. 17. The stacked connector of claim 16 , further comprising: a support member extending perpendicularly from a center portion of the platform. 18. The stacked connector of claim 17 , wherein the support member comprises openings therethrough so as to provide at least one airflow passage into the cavity from the exterior of the housing adjacent the mating face. 19. The stacked connector of claim 17 , wherein: the platform comprises an engagement feature, engaging a complimentary engagement feature o