Thermal transfer and coolant-cooled structures facilitating cooling of electronics card(s)

What is claimed is: 1. A cooling apparatus comprising: a thermal transfer structure coupled to at least one side of an electronics card comprising one or more electronic components to be cooled, the electronics card operatively docking within a socket of an electronic system, and the thermal transfer structure comprising: a thermal spreader coupled to the one side of the electronics card; and a coolant-cooled structure disposed adjacent to the socket of the electronic system within which the electronics card is to operatively dock, the coolant-cooled structure comprising: at least one low-profile cold rail sized and configured to thermally couple to the thermal spreader along a bottom edge of the thermal spreader with operative docking of the electronics card within the socket; and at least one coolant-carrying channel associated with the at least one low-profile cold rail for removing heat from the at least one low-profile cold rail to coolant flowing through the at least one coolant-carrying channel; and a first edge-side cold rail and a second edge-side cold rail, the first edge-side cold rail and the second edge-side cold rail being sized and configured to thermally couple to opposite side edges of the thermal spreader with operative docking of the electronics card within the socket. 2. The cooling apparatus of claim 1 , wherein the first edge-side cold rail comprises a coolant supply manifold, and the second edge-side cold rail comprises a coolant return manifold, and wherein the coolant supply manifold of the first edge-side cold rail and coolant return manifold of the second edge-side cold rail are in fluid communication with the at least one coolant-carrying channel associated with the at least one low-profile cold rail to facilitate flow of coolant through the at least one coolant-carrying channel. 3. The cooling apparatus of claim 2 , wherein the coolant-cooled structure comprises a plurality of low-profile cold rails disposed in parallel between the first edge-side cold rail and the second edge-side cold rail, and a plurality of coolant-carrying channels associated with the plurality of low-profile cold rails disposed in parallel between the first edge-side cold rail and the second edge-side cold rail, each coolant-carrying channel being associated with a respective low-profile cold rail of the plurality of low-profile cold rails for removing heat therefrom, and the at least one low-profile cold rail being at least one low-profile cold rail of the plurality of low-profile cold rails, and the at least one coolant-carrying channel being at least one coolant-carrying channel of the plurality of coolant-carrying channels. 4. The cooling apparatus of claim 3 , wherein the socket is disposed between two adjacent, low-profile cold rails of the plurality of low-profile cold rails disposed in parallel between the first edge-side cold rail and the second edge-side cold rail. 5. The cooling apparatus of claim 3 , wherein the electronics card is a first electronics card, the socket is a first socket, the thermal transfer structure is a first thermal transfer structure, and the thermal spreader thereof is a first thermal spreader, and wherein the cooling apparatus further comprises a second thermal transfer structure coupled to at least one side of a second electronics card comprising one or more additional electronic components to be cooled, the second electronics card operatively docking within a second socket of the electronic system, wherein the first and second sockets are adjacent sockets in the electronic system and the second thermal transfer structure comprises a second thermal spreader, the first thermal spreader of the first thermal transfer structure thermally coupling to the one low-profile cold rail of the plurality of low-profile cold rails, and the second thermal spreader of the second thermal transfer structure also thermally coupling to the one low-profile cold rail of the plurality of low-profile cold rails when the first electronics card and second electronics card are operatively docked within the adjacent first and second sockets of the electronic system. 6. The cooling apparatus of claim 3 , wherein the thermal spreader comprises a front thermal spreader, and wherein the thermal transfer structure further comprises a back thermal spreader, the front thermal spreader and the back thermal spreader being coupled to opposite main sides of the electronics card, and each comprises at least one thermally conductive extension extending past the electronics card when the front and back thermal spreaders are coupled together with the electronics card sandwiched between the front and back thermal spreaders, the thermally conductive extensions thermally coupling together to facilitate thermal conduction of heat from the back thermal spreader to the front thermal spreader, and wherein the front thermally spreader thermally couples along a bottom edge thereof to the one low-profile cold rail and the second thermal spreader thermally couples along a bottom edge thereof to another low-profile cold rail, wherein the one low-profile cold rail and the another low-profile cold rail are disposed on opposite sides of the socket. 7. The cooling apparatus of claim 2 , wherein the thermal transfer structure mechanically couples to the first and second edge-side cold rails with operative docking of the electronics card within the socket. 8. The cooling apparatus of claim 2 , further comprising a compliant, thermal interface material disposed between the thermal spreader and the one low-profile cold rail of the at least one low-profile cold rail with operative docking of the electronics card within the socket. 9. The cooling apparatus of claim 2 , wherein the electronics card comprises one of an in-line memory module or a dual-in-line memory module. 10. A coolant-cooled electronic assembly comprising: an electronic system, the electronic system comprising: an electronics card comprising one or more electronic components to be cooled; a socket operatively receiving the electronics card; and a cooling apparatus comprising: a thermal transfer structure coupled to at least one side of the electronics card comprising one or more electronic components to be cooled, the thermal transfer structure comprising: a thermal spreader coupled to the one side of the electronics card; and a coolant-cooled structure disposed adjacent to the socket of the electronic system within which the electronics card is operatively docked, the coolant-cooled structure comprising: a least one low-profile cold rail sized and configured to thermally couple to the thermal spreader along a bottom edge of the thermal spreader with operative docking of the electronics card within the socket; at least one coolant-carrying channel associated with the at least one low-profile cold rail for removing heat from the at least one low-profile cold rail to coolant flowing through the at least one coolant-carrying channel; and a first edge-side cold rail and a second edge-side cold rail, the first edge-side cold rail and the second edge-side cold rail being thermally coupled to opposite side edges of the thermal spreader with operative docking of the electronics card within the socket. 11. The coolant-cooled electronic assembly of claim 10 , wherein the first edge-side cold rail comprises a coolant supply manifold, and the second edge-side cold rail comprises a coolant return manifold, and wherein the coolant supply manifold of the first edge-side cold rail and coolant return manifold of the second edge-side cold rail are in fluid communication with the at least one coolant-carrying channel associated with the at least one low-profile cold ra