Reflow compatible optical packaging

What is claimed is: 1. An optical coupling assembly, comprising: a substrate with multiple grooves etched into a surface of the substrate, each groove having a V-shaped cross section; a fiber optic ribbon including multiple optical fibers, each optical fiber placed in an associated groove with the optical fiber in contact with each side of the V-shaped groove; a lid located over the optical fibers and compressing each optical fiber down into the associated V-shaped groove; a metallic material positioned between the substrate and the lid to attach the lid to the substrate; and an epoxy material positioned at a juncture of the substrate, the lid, and a ribbon material of the fiber optic ribbon to provide strain relief for the optical fibers. 2. The optical coupling assembly of claim 1 , wherein the substrate further comprises multiple optical waveguides optically aligned with ends of the multiple optical fibers. 3. The optical coupling assembly of claim 1 , wherein the substrate further comprises electronic circuitry to sense light traveling from the optical fibers through the wave guides. 4. The optical coupling assembly of claim 1 , wherein the substrate further comprises electronic circuitry to generate light to travel through the wave guides to the optical fibers. 5. The optical coupling assembly of claim 1 , wherein each optical fiber includes an internally reflective core and a cladding surrounding the core. 6. The optical coupling assembly of claim 5 , wherein the ribbon material is removed from the cladding at areas of the optical fibers located in the V-shaped grooves. 7. The optical coupling assembly of claim 1 , wherein said pressing each optical fiber comprises compressing with a force between 7 and 11 newtons. 8. The optical coupling assembly of claim 1 , further comprising a printed circuit board to which the substrate is mounted. 9. A substrate for an optical coupling assembly, wherein the substrate comprises: multiple parallel grooves extending in a longitudinal direction on a first surface of the substrate, each groove having a V-shaped cross section to receive an optical fiber; multiple optical waveguides on the first surface, each optical waveguide to communicate optical signals between one of the optical fibers and an optical transmitter or receiver, each of the optical waveguides formed by etching a groove into the first surface of the substrate and being smaller than the grooves; a trench on the first surface at an end of the substrate in the longitudinal direction, the trench to receive a fiber optic ribbon; and at least one attachment area on the first surface to attach a lid over the grooves. 10. The substrate of claim 9 , further including a trench on the first surface for wafer level testing. 11. The substrate of claim 9 , the substrate having a metallic material AuSn at the at least one attach area of the substrate. 12. The substrate of claim 9 , the substrate having a metallic material AuIn at the at least one attach area of the substrate.