Shooting long fiber spans with high loss fiber

The invention claimed is: 1. A method of tracing a complete span of a fiber, the method comprising: determining a reference point along an end-to-end length of the fiber, wherein the reference point is specified at a location between the ends of the fiber along the end-to-end length of the fiber; setting a pulse width and a measurement range to be greater than a distance from each end of the fiber to the reference point; shooting a fiber from a master unit, attached to one end of the fiber, to collect a trace past the reference point; shooting the fiber from a slave unit, attached to an opposite end of the fiber, to collect a trace past the reference point; cropping the trace collected by the master unit; cropping the trace collected by the slave unit; inverting a slope of the trace collected by the slave unit; and combining the trace collected by the master unit and the trace collected by the slave unit. 2. The method of claim 1 , further comprising measuring an end-to-end length of the fiber. 3. The method of claim 1 , wherein the setting the pulse width and the measurement range comprises setting the pulse width and the measurement range to be greater than half the measured length of the fiber. 4. The method of claim 1 , wherein the reference point is at a midpoint of the fiber. 5. The method of claim 1 , wherein setting the pulse width and the measurement range comprises setting the pulse width and the measurement range of the master unit and the slave unit, the master unit and the slave unit respectively connected to the opposing ends of the fiber, wherein the master unit is configured to collect the trace from the one end of the fiber to a first point beyond the reference point in a first direction along the end-to-end length of the fiber, and wherein the slave unit is configured to collect the trace from the opposite end of the fiber to a second point beyond the reference point in a second opposite direction along the end-to-end length of the fiber. 6. The method of claim 5 , wherein the first point beyond the reference point is determined by adding a buffer length to the reference point in the first direction, and wherein the second point beyond the reference point is determined by adding a buffer length to the reference point in the second opposite direction. 7. A method of tracing a complete span of a fiber, the method comprising: determining a reference point along an end-to-end length of the fiber, wherein the reference point is specified at a location between the ends of the fiber along the end-to-end length of the fiber; setting a pulse width and the measurement range of the master unit and the slave unit, the master unit and the slave unit respectively connected to the opposing ends of the fiber, wherein the master unit is configured to collect trace data from the one end of the fiber to a first point beyond the reference point in a first direction along the end-to-end length of the fiber, and wherein the slave unit is configured to collect trace data from the opposite end of the fiber to second point beyond the reference point in a second opposite direction along the end-to-end length of the fiber; shooting a fiber from the master unit to collect trace past the reference point; shooting the fiber from the slave unit to collect trace past the reference point; cropping the trace data collected by the master unit; cropping the trace data collected by the slave unit; inverting a slope of the trace data collected by the slave unit; and combining the trace data collected by the master unit and the trace data collected by the slave unit. 8. The method of claim 7 , further comprising measuring an end-to-end length of the fiber. 9. The method of claim 7 , wherein the setting the pulse width and the measurement range comprises setting the pulse width and the measurement range to be greater than half the measured length of the fiber. 10. The method of claim 7 , wherein the reference point is at a midpoint of the fiber. 11. The method of claim 7 , wherein the first point beyond the reference point is determined by adding a buffer length to the reference point in the first direction, and wherein the second point beyond the reference point is determined by adding a buffer length to the reference point in the second opposite direction.