Durable optical fiber and connector assembly

What is claimed is: 1. An optical fiber assembly comprising: an optical fiber ribbon comprising: a ribbon matrix; a first group of optical fibers embedded in the ribbon matrix; a second group of optical fibers embedded in the ribbon matrix; and a split in the ribbon matrix beginning at a first end of the ribbon and ending at an inner terminus, forming a space between a first end of the first group of optical fibers and a first end of the second group of optical fibers; and an optical connector comprising: a body; a first array of openings defined in the body; and a second array of openings defined in the body, the second array spaced from the first array; wherein a bond between the ribbon matrix and the optical fibers provides a separation strength of between 0.8 N and 8 N at the inner terminus preventing elongation of the split due to a force applied perpendicular to the axial length of the split. 2. The optical fiber assembly of claim 1 , wherein the optical connector comprises a wall portion located between and defining a separation distance between the first array of openings and the second array of openings, wherein a width of the space between the first end of the first group of optical fibers and the first end of the second group of optical fibers is substantially the same as the separation distance allowing the first group of optical fibers to align with the first array of openings and allowing the second group of optical fibers to align with the second array of openings. 3. The optical fiber assembly of claim 2 , wherein the ribbon matrix binds the first group of optical fibers and the second group of optical fibers together and prevents the split from propagating toward a second end of the ribbon without restraining the ribbon at a point between the inner terminus of the split and the second end of the ribbon. 4. The optical fiber assembly of claim 1 , wherein the optical fiber ribbon further comprises an ink layer on each of the optical fibers. 5. The optical fiber assembly of claim 4 , wherein the ink layer on a first fiber of the first group has a first color, the ink layer on a first fiber of the second group has a second color, and the ink layer on the remaining fibers of the first and second groups have a third color, wherein the first color is different from the second and third colors, and the second color is different from the third color. 6. The optical fiber assembly of claim 5 , wherein the first fiber of the first group is an outermost fiber of the first group, and the first fiber of the second group is an innermost fiber of the second group, wherein the split is located between the first fiber of the second group and an innermost fiber of the first group, wherein the difference between the second color and the third color provides a visual indication of a boundary between the first and second groups. 7. The optical fiber assembly of claim 4 , wherein the ink layers are cured in an environment having an O 2 content in an amount of at least about 1,000 ppm and the separation strength is between 0.8 N and 4 N. 8. An optical fiber assembly comprising: an optical fiber ribbon comprising: a first end; a second end; a ribbon body comprising a matrix; a first fiber embedded in the ribbon body and extending from the first end to the second end; a second fiber embedded in the ribbon body and extending from the first end to the second end; and a split in the ribbon body extending along a portion of the length of the ribbon from the first end toward the second end of the ribbon, the split having an inner terminus located between the first and second ends of the ribbon, the split located between the first fiber and the second fiber forming a gap between the first fiber and the second fiber at the first end of the ribbon; and an optical connector comprising: a body including an outer surface; a first fiber receiving passage defined in the body and extending inward from the outer surface into the optical connector, wherein the first fiber is received within the first fiber receiving passage; a second fiber receiving passage defined in the body and extending inward from the outer surface into the optical connector, wherein the second fiber is received within the second fiber receiving passage; wherein the inner terminus of the split is located outside of the body of the optical connector; wherein a bond between the matrix of the ribbon body and the optical fibers has a separation strength of between 0.8 N and 8 N at the inner terminus that prevents the split from propagating toward the second end when a force is applied perpendicular to the axial length of the split. 9. The optical fiber assembly of claim 8 , wherein the optical connector comprises a wall portion located between and defining a separation distance between the first fiber receiving opening and the second fiber receiving opening, wherein a width of the gap between the first fiber and the second fiber is greater than the separation distance, wherein the separation distance is between 1 mm and 3 mm. 10. The optical fiber assembly of claim 8 , wherein the ribbon body binds the first fiber and the second fiber together and prevents the split from propagating toward the second end without restraining the ribbon at a point between the inner terminus of the split and the second end of the ribbon. 11. The optical fiber assembly of claim 10 , further comprising: a first ink coloring layer on the first fiber; and a second ink coloring layer on the second fiber; the first and second ink coloring layers are cured in an environment having an O 2 content in an amount of at least about 1,000 ppm, and wherein the bond between the matrix and the optical fibers provides a separation strength of between 0.8 N and 8 N preventing elongation of the split. 12. The optical fiber assembly of claim 8 , further comprising a second connector connected to the second end of the ribbon, wherein the second end of the ribbon is unsplit such that no gap is located between the first fiber and the second fiber at the second end. 13. The optical fiber assembly of claim 12 , further comprising a housing and a circuit board including a diode array, wherein the optical connector is connected to the circuit board such that the first and second fibers are in communication with the diode array, wherein the second connector extends out of the housing, and an inner terminus of the split is located within the housing between the optical connector and the second connector, wherein the assembly does not include a structure external to the ribbon that engages a portion of ribbon adjacent the inner terminus of the split that acts to physically restrain propagation of the split along a length of the ribbon. 14. A connecting assembly for connecting optical fibers to a circuit board including a transmit diode array and a receive diode array and located within a housing, the connecting assembly comprising: an optical connector comprising: a body including a first outer surface and a second outer surface; a first array of openings defined in the body and formed through the first outer surface of the body; and a second array of openings defined in the body and formed through the first outer surface of the body, the second array spaced from the first array defining a separation distance; wherein the optical connector is configured to be connected to the circuit board such that the second outer surface of the body faces the transmit diode array and the receive diode array; and an optical fiber ribbon comprising: a first end; a second end; a ribbon body; a first group of a plu