High density organic bridge device and method

What s claimed is: 1. A microelectronic package comprising; an organic polymer substrate having a first wire width and first wire spacing; an organic polymer bridge embedded in the substrate having a second wire width and a second wire spacing; a first interconnect structure including connection points at a first location of the organic polymer bridge and a second interconnect structure including connection points at a second location of the organic polymer bridge; an electrically conductive path including a metal routing layer in the organic polymer bridge connecting the first interconnect structure to the second interconnect structure; a first die coupled to the first interconnect structure at the first location, and including bond pads that match the first wire width and first wire spacing, and bond pads that match the second wire width and second wire spacing; and a subsequent die coupled to the second interconnect structure including bond pads that match the first wire width and first wire spacing, and bond pads that match the second wire width and second wire spacing. 2. The microelectronic package of claim 1 , further including: wherein the first wire width and first wire spacing exhibit a first set of design rules; wherein the second wire width and second wire spacing exhibit a second set of design rules; wherein the first wire width is larger than the second wire width and the first wire spacing is larger than the second wire spacing; and wherein the connection points are part of a metal pad layer. 3. The microelectronic package of claim 1 , wherein the organic polymer substrate contains a recess and the organic polymer bridge is embedded into the recess using an organic polymer. 4. The microelectronic package of claim 3 : wherein the organic polymer substrate contains a recess and the organic polymer bridge is embedded into the recess using an organic polymer; and wherein the organic polymer substrate and the organic polymer bridge are the same organic polymer. 5. The microelectronic package of claim 3 : wherein the organic polymer substrate contains a recess and the organic polymer bridge is embedded into the recess using an organic polymer; and wherein the organic polymer substrate and the organic polymer bridge are made from different organic polymers. 6. The microelectronic package of claim 3 : wherein the organic polymer substrate contains a recess and the organic polymer bridge is embedded into the recess using an organic polymer; and wherein the organic polymer used to bond the organic polymer bridge to the organic polymer substrate is selected from a die bonding film and an epoxy. 7. A microelectronic package comprising; an organic polymer substrate having a first wire width and first wire spacing; a first organic polymer bridge embedded in the substrate having a second wire width and a second wire spacing; a first interconnect structure including connection points at a first location of the first organic polymer bridge and a second interconnect structure including connection points at a second location of the first organic polymer bridge; an electrically conductive path including a metal routing layer in the first organic polymer bridge connecting the first interconnect structure to the second interconnect structure; a subsequent organic polymer bridge embedded in the substrate having a second wire width and a second wire spacing; a first interconnect structure at a first location of the subsequent organic polymer bridge and a second interconnect structure at a second location of the subsequent organic polymer bridge; an electrically conductive path including a metal routing layer in the subsequent organic polymer bridge connecting the first interconnect structure to the second interconnect structure; a first die coupled to the first interconnect structure at the first location, and including bond pads that match the first wire width and first wire spacing, and bond pads that match the second wire width and second wire spacing of the first organic polymer bridge; a subsequent die coupled to the second interconnect structure of the first organic polymer bridge, including bond pads that match the first wire width and first wire spacing, and bond pads that match the second wire width and second wire spacing; and a third die coupled to the second interconnect structure of the first organic polymer bridge, including bond pads that match the first wire width and first wire spacing, and bond pads that match the second wire width and second wire spacing. 8. The microelectronic package of claim 7 , further including: a third organic polymer bridge embedded in the substrate having the second wire width and second wire spacing; a first interconnect structure at a first location of the third organic polymer bridge and a second interconnect structure at a second location of the third organic polymer bridge; an electrically conductive path including a metal routing layer in the third organic polymer bridge connecting the first interconnect structure to the second interconnect structure; and a fourth die coupled to the second interconnect structure. 9. The microelectronic package of claim 8 , further including: wherein the first wire width and first wire spacing exhibit a first set of design rules; wherein each second wire width and second wire spacing exhibit a second set of design rules; wherein the first wire width is larger than the second wire width and the first wire spacing is larger than the second wire spacing; and wherein the connection points are part of a metal pad layer. 10. The microelectronic package of claim 9 , wherein the organic polymer substrate contains a plurality of recesses and each organic polymer bridge is embedded into one of the plurality of recesses using an organic polymer. 11. The microelectronic package of claim 9 : wherein the organic polymer substrate contains a plurality of recesses and each organic polymer bridge is embedded into one of the plurality of recesses using an organic polymer; and wherein the organic polymer substrate and each organic polymer bridge are made from the same organic polymer. 12. The microelectronic package of claim 9 : wherein the organic polymer substrate contains a plurality of recess and each organic polymer bridge is embedded into one of the recesses using an organic polymer; and wherein the organic polymer substrate and the organic polymer bridges are made from different organic polymers. 13. The microelectronic package of claim 9 : wherein the organic polymer substrate contains a plurality of recess and each organic polymer bridge is embedded into one of the recesses using an organic polymer; and wherein the organic polymer used to bond each organic polymer bridge to the organic polymer substrate is selected from a die bonding film and an epoxy. 14. The microelectronic package of claim 7 , further including: a third organic polymer bridge embedded in the substrate having the second wire width and second wire spacing; a fourth die coupled to the third interconnect structure; a fourth organic polymer bridge embedded in the substrate having the second wire width and second wire spacing; a first interconnect structure at a first location of the fourth organic polymer bridge and a second interconnect structure at a second location of the fourth organic polymer bridge; a metal routing layer in the fourth organic polymer bridge connecting the first interconnect structure to the second interconnect structure; and a fifth die coupled to the second interconnect structure. 15. The microe