Flex bonded integrated circuits

What is claimed is: 1. An integrated circuit package comprising: an integrated circuit die implementing an integrated circuit, the integrated circuit die comprising a first plurality of contacts; a package substrate comprising a second plurality of contacts, each contact of the second plurality of contacts configured to be coupled to a contact of the first plurality of contacts; and a flex cable comprising: an insulating housing made of an insulating material, and a plurality of conductors embedded inside the insulating housing, each conductor of the plurality of conductors connected to a first contact of the first plurality of contacts and a second contact of the second plurality of contacts, wherein the plurality of conductors comprises a first set of conductors arranged in a first conductor layer formed in a first plane and a second set of conductors arranged in a second conductor layer formed in a second plane parallel to and spaced from the first plane in a first direction, wherein the second set of conductors are offset from the first set of conductors along a second direction normal to the first direction, wherein the flex cable is cut at an angle through the flex cable from a first surface of the flex cable to a second surface of the flex cable to expose the first set of conductors and the second set of conductors. 2. The integrated circuit package of claim 1 , wherein one conductor of the first set of conductors forms a first obtuse, internal angle at a first end to expose a first surface of the one conductor, and forms a second obtuse, internal angle to expose a second surface of the one conductor. 3. The integrated circuit package of claim 2 , wherein the first obtuse, internal angle and the second obtuse, internal angle are selected based on a surface area of the first and second surfaces of the plurality of conductors. 4. The integrated circuit package of claim 1 , wherein the plurality of conductors are thermosonically bonded to the first plurality of contacts and the second plurality of contacts. 5. The integrated circuit package of claim 1 , wherein the flex cable further comprises: a first shielding plane overlapping the plurality of conductors of the flex cable, the first shielding plane configured to be connected to at least one of a first ground terminal of the integrated circuit die or a second ground terminal of the package substrate, wherein the first shielding plane is disposed in the first direction relative to the second conductor layer; a first shielding conductor disposed in the second conductor layer and connected to at least one of the first ground terminal or the second ground terminal; and a second shielding conductor disposed in the second conductor layer and connected to at least one of the first ground terminal or the second ground terminal, wherein the second set of conductors are disposed between the first shielding conductor and the second shielding conductor, wherein the first conductor layer and the second conductor layer are in contact with an insulating layer of the insulating housing. 6. The integrated circuit package of claim 1 , wherein the flex cable further comprises: a first shielding plane and a second shielding plane, the first shielding plane and the second shielding plane overlapping the plurality of conductors of the flex cable, wherein the plurality of conductors of the flex cable are disposed between the first shielding plane and the second shielding plane. 7. The integrated circuit package of claim 1 , wherein the first conductor layer and the second conductor layer are separated by an insulating layer. 8. The integrated circuit package of claim 7 , wherein the angle for cutting the flex cable is selected based on a separation between a first row of contacts and a second row of contacts of the plurality of contacts of the integrated circuit die. 9. The integrated circuit package of claim 1 , wherein the plurality of conductors are configured to fan out from a first end of the flex cable to a second end of the flex cable, wherein the plurality of conductors are separated by a first distance at the first end of the flex cable and separated by a second distance at the second end of the flex cable, the second end larger than the first end. 10. The integrated circuit package of claim 9 , wherein the integrated circuit die is fabricated using a first fabrication process having a first feature size, and wherein the package substrate is fabricated using a second fabrication process having a second feature size, larger than the first feature size. 11. A method for connecting an integrated circuit die to a package substrate, comprising: cutting, by a flex cable bonding head, a flex cable along a first cut line at a first angle through the flex cable from a first surface of the flex cable to a second surface of the flex cable to expose a first surface of a plurality of conductors of the flex cable, wherein the plurality of conductors is embedded inside an insulating house of the flex cable, wherein the plurality of conductors comprises a first set of conductors arranged in a first conductor layer formed in a first plane and a second set of conductors arranged in a second conductor layer formed in a second plane parallel to and spaced from the first plane in a first direction, wherein the second set of conductors are offset from the first set of conductors along a second direction normal to the first direction; cutting, by the flex cable bonding head, the flex cable along a second cut line at a second angle to expose a second surface of the plurality of conductors of the flex cable; aligning the flex cable bonding head to a first plurality of contacts of the integrated circuit die; thermosonically bonding the first surface of the plurality of conductors to the first plurality of contacts of the integrated circuit die; aligning the flex cable bonding head to a second plurality of contacts of the package substrate; and thermosonically bonding the second surface of the plurality of conductors to the second plurality of contacts of the package substrate. 12. The method of claim 11 , wherein the first angle and the second angle are selected based on a surface area of the first and second surfaces of the plurality of conductors. 13. The method of claim 11 , wherein the flex cable further comprises: a first shielding plane overlapping the plurality of conductors of the flex cable, the first shielding plane configured to be connected to at least one of a first ground terminal of the integrated circuit die or a second ground terminal of the package substrate, wherein the first shielding plane is disposed in the first direction relative to the second conductor layer; a first shielding conductor disposed in the second conductor layer and connected to at least one of the first ground terminal or the second ground terminal; and a second shielding conductor disposed in the second conductor layer and connected to at least one of the first ground terminal or the second ground terminal, wherein the second set of conductors are disposed between the first shielding conductor and the second shielding conductor, wherein the first conductor layer and the second conductor layer are in contact with an insulating layer of the insulating housing. 14. The method of claim 11 , wherein the flex cable further comprises a first shielding plane and a second shielding plane, the first shielding plane and the second shielding plane overlapping the plurality of conductors of the flex cable, wherein the plurality of conductors of the flex cable are disposed between the first shielding plane and the second shielding