Low profile zero/low insertion force package top side flex cable connector architecture

What is claimed is: 1. An integrated circuit package, comprising: a plurality of contact pads formed on a top side of a package substrate; a die electrically coupled to the plurality of contact pads; a plurality of input/output (I/O) pads formed on the topside of the package substrate, wherein the I/O pads are electrically coupled to the contact pads through the package substrate; and a flex cable receptacle electrically coupled to the I/O pads on the top side of the package substrate wherein the flex cable receptacle is one of a low-insertion force (LIF) socket or a zero-insertion force (ZIF) socket with a cam box. 2. The integrated circuit package of claim 1 , wherein the flex cable receptacle is a pin carrier. 3. The integrated circuit package of claim 2 , wherein the flex cable receptacle is attachable to a flex cable connector, and the flex cable connector is one of a low-insertion force socket or a zero-insertion force socket with a cam box. 4. The integrated circuit package of claim 2 , wherein the pin carrier further comprises a pin shroud. 5. The integrated circuit package of claim 2 , wherein the pin carrier has a core made of a material selected from the group consisting of a liquid crystal polymer dielectric and a printed circuit board material. 6. The integrated circuit package of claim 2 , wherein the pin carrier has a core thickness in a range of 0.2 millimeters (mm) to 0.4 mm. 7. The integrated circuit package of claim 1 , further comprising an integrated heat sink (IHS) disposed above the die, and wherein a maximum height of the flex cable receptacle when the flex cable receptacle is attached to the package substrate is lower than a combined height of the IHS and the die. 8. An integrated circuit package assembly, comprising: a plurality of contact pads formed on a top side of a package substrate; a die electrically coupled to the plurality of contact pads; a plurality of input/output (I/O) pads formed on the top side of the package substrate, wherein the I/O pads are electrically coupled to the contact pads through the package substrate; a pin carrier electrically coupled to the plurality of I/O pads on the topside of the package substrate, wherein the pin carrier includes a first plurality of connection pins electrically coupled to the plurality of I/O pads; and a flex cable connector coupled to the pin carrier, wherein the flex cable connector includes a second plurality of connection pins electrically coupled to a plurality of cable contacts on a flex cable, and the flex cable connector is coupled to the pin carrier through mating of the first and second pluralities of connection pins. 9. The integrated circuit package assembly of claim 8 , wherein the flex cable connector is one of a low-insertion force socket or a zero-insertion force socket with a cam box. 10. The integrated circuit package assembly of claim 8 , further comprising an integrated heat sink (IHS) disposed above the die, and a heat sink disposed above the IHS, wherein the heat sink is disposed above the IHS without an interposed heat sink pedestal. 11. The integrated circuit package assembly of claim 8 , wherein the pin carrier has a core made of a material selected from a group consisting of a liquid crystal polymer dielectric and a printed circuit board material. 12. An integrated circuit package, comprising: a plurality of contact pads formed on a top side of a package substrate; a die electrically coupled to the plurality of contact pads; a plurality of input/output (I/O) pads formed on the topside of the package substrate, wherein the I/O pads are electrically coupled to the contact pads through the package substrate; and a flex cable receptacle electrically coupled to the I/O pads on the top side of the package substrate wherein the flex cable receptacle is a pin carrier and wherein the flex cable receptacle is attachable to a flex cable connector, and the flex cable connector is one of a low-insertion force socket or a zero-insertion force socket with a cam box. 13. An integrated circuit package, comprising: a plurality of contact pads formed on a top side of a package substrate; a die electrically coupled to the plurality of contact pads; a plurality of input/output (I/O) pads formed on the topside of the package substrate, wherein the I/O pads are electrically coupled to the contact pads through the package substrate; and a flex cable receptacle electrically coupled to the I/O pads on the top side of the package substrate wherein the flex cable receptacle is a pin carrier and wherein the pin carrier has a core thickness in a range of 0.2 millimeters (mm) to 0.4 mm.