Fluid ejection device with ink feedhole bridge

What is claimed is: 1. A print cartridge comprising: a fluid source; and fluid ejection device, the fluid ejection device comprising: a substrate with a fluid slot formed therein; a chamber layer formed on the substrate defining a plurality of pairs of fluid chambers, each pair of fluid chambers comprising a first fluid chamber on a first side of the fluid slot and a second fluid chamber on a second side of the fluid slot; a thin-film layer between the substrate and chamber layer that defines an ink feedhole (IFH) between the fluid slot and the chamber layer; and a chamber layer extension comprising a number of discontinuous bridges across the IFH between each pair of fluid chambers, wherein the thin-film layer extends across an entirety of the IFH. 2. The print cartridge of claim 1 , comprising a thin-film layer extension that forms part of each bridge across the IFH. 3. The print cartridge of claim 2 , comprising: a primer layer between the chamber layer and the thin-film layer; and a primer layer extension that forms part of each bridge across the IFH. 4. The print cartridge of claim 1 , comprising a nozzle plate formed over the chamber layer and adjacent to the chamber layer extension over the IFH. 5. The print cartridge of claim 1 , wherein the chamber layer extension comprises an extension of chamber walls of the first fluid chamber and the second fluid chamber of each pair of fluid chambers. 6. The print cartridge of claim 1 , wherein: each fluid chamber of the chamber layer comprises chamber inlet, and the chamber layer defines, for each fluid chamber, a pillar located near the chamber inlet. 7. The print cartridge of claim 1 , wherein each fluid chamber of the chamber layer comprises a chamber inlet that is fluidically coupled to the IFH. 8. A fluid ejection system comprising: at least one print cartridge; at least one fluid source coupled to each print cartridge to supply fluid to the at least one print cartridge; and a fluid ejection device comprising: a thin-film layer on a substrate; a chamber layer that defines a plurality of chambers; a primer layer between the thin-film layer and the chamber layer; thermal resistors formed in the thin-film layer and positioned proximate the chambers of the chamber layer; a slot extending through the substrate and into the chamber layer through an ink feedhole (IFH) defined in the thin-film layer, wherein the plurality of chambers comprises a plurality of chamber pairs, each of the chamber pairs comprising a first chamber on a first side of the slot and a second chamber on a second side of the slot; and a plurality of IFH bridges comprising a discontinuous chamber layer extension across the IFH between each of the chamber pairs; wherein the thin-film layer extends across an entirety of the IFH. 9. The fluid ejection system of claim 8 , comprising a nozzle plate over the chamber layer and adjacent to the IFH bridge. 10. The fluid ejection system of claim 9 , the IFH bridge further comprising a primer layer extension across the IFH, the primer layer extension between the chamber layer extension and the thin-film layer extension. 11. The fluid ejection system of claim 8 , wherein the chamber layer extension comprises a continuation of chamber walls from the chambers. 12. The fluid ejection system of claim 8 , wherein: each chamber of the chamber layer comprises chamber inlet, and the chamber layer defines, for each chamber, a pillar located near the chamber inlet. 13. The fluid ejection system of claim 8 , wherein each chamber of the chamber layer comprises a chamber inlet that is fluidically coupled to the IFH. 14. A print cartridge comprising: at least one fluid ejection device, each fluid ejection device comprising: a substrate with a fluid slot formed therein; a chamber layer formed on the substrate defining fluid chambers on both sides of the fluid slot; a thin-film layer between the substrate and chamber layer that defines an ink feedhole (IFH) between the fluid slot and the chamber layer comprising a thin-film layer extension that extends across an entirety of the IFH; and a discontinuous chamber layer segment on the thin-film layer extension, the thin-film layer extension and discontinuous chamber layer segment forming an IFH bridge. 15. The print cartridge of claim 14 , further comprising a nozzle plate, wherein the IFH bridge is adjacent to the nozzle plate and provides a bond between the substrate and the nozzle plate through the IFH bridge. 16. The print cartridge of claim 15 , comprising: a number of thermal resistors formed in the thin-film layer; and a primer layer between the thin-film layer and the chamber layer. 17. The print cartridge of claim 16 , comprising a primer layer extension that forms part of the IFH bridge. 18. The print cartridge of claim 15 , wherein the discontinuous chamber layer segment extends partially across the IFH.