Online helix adjustment to control connector location on preconnectorized tapered assemblies

What is claimed is: 1. A method of preparing a bundled cable, comprising: providing a central member having an outer central member surface defining a central member diameter; providing a plurality of subunits, each of the plurality of subunits having an outer subunit surface defining a subunit diameter: monitoring the subunit diameter and the central member diameter; winding the plurality of subunits around the central member in one or more layers of subunits to form the bundled cable, wherein, for a section of the central member, each layer of subunits has a pitch over which a subunit of the layer of subunits makes one revolution around the section of the central member and a length of the subunit required to make the one revolution and wherein the subunits are configured to have a helical length equal to a ratio of a nominal length to a nominal pitch; and adjusting a winding rate of the plurality of subunits based on monitoring of the subunit diameter and of the central member diameter in order to account for deviations from the nominal helical length. 2. The method of claim 1 , wherein the step of providing the central member further comprises providing the central member at a constant speed. 3. The method of claim 1 , wherein the central member is a central strength member comprising a strength element and an outer jacket formed around the strength element, wherein the outer jacket defines the outer central member surface. 4. The method of claim 1 , wherein the central member is an optical fiber cable comprising an outer jacket surrounding a plurality of optical fibers, wherein the outer jacket defines the outer central member surface. 5. The method of claim 1 , wherein each of the plurality of subunits comprises a subunit jacket having an inner surface and the outer subunit surface, the inner surface defining a central bore extending from a first subunit end to a second subunit end and the outer subunit surface defining a subunit diameter; at least one optical fiber disposed within the central bore; and a connector disposed at the second subunit end, the connector being optically coupled to the at least one optical fiber; wherein the first subunit end of each of the plurality of subunits originates at a first end of the bundled cable and wherein the second subunit end of each of the plurality of subunits terminates at a termination location along the bundled cable different from the second subunit end of at least one other subunit of the plurality of subunits. 6. The method of claim 5 , wherein each subunit has a nominal termination location along the bundled cable and wherein the step of adjusting further comprises locating the termination location of the subunit within +/−6 inches of the nominal termination location. 7. The method of claim 1 , wherein the step of monitoring comprises taking a non-contact measurement of a diameter of the bundled cable.