Methods for performing multi-disturber alien crosstalk limited signal-to-noise ratio tests

That which is claimed is: 1. A method of performing a multi-disturber alien crosstalk limited signal-to-noise ratio test, the method comprising: determining at least one signal-to-alien crosstalk noise ratio for a victim link segment using a composite power spectral density for a first of a plurality of disturber link segments, wherein the composite power spectral density comprises a combination of portions of a plurality of power spectral densities that are associated with different line rates at which the first of the plurality of disturber link segments may operate. 2. The method of claim 1 , further comprising determining an alien crosstalk noise contribution for the first of the plurality of disturber link segments using the composite power spectral density for the first of a plurality of disturber link segments, wherein the composite power spectral density accounts for any power back-offs at which the first of the plurality of disturber link segments would operate when transmitting signals at the respective line rates. 3. The method of claim 2 , wherein different portions of the composite power spectral density are adjusted different amounts to account for different power back-offs that apply when the first of the plurality of disturber link segments operates at different line rates. 4. The method of claim 1 , further comprising determining a signal power of the victim link segment for the signal-to-alien crosstalk noise ratio using one of the plurality of power spectral densities that corresponds to a specific line rate for the victim link segment. 5. The method of claim 1 , wherein the at least one signal-to-alien crosstalk noise ratio is determined using respective composite power spectral densities for each of the plurality of disturber link segments. 6. The method of claim 1 , wherein the composite power spectral density comprises a worst case composite power spectral density that is formed by assigning, at each of a plurality of frequencies within an operating frequency band of the victim link segment operating at a first line rate, a highest power level from the plurality of power spectral densities that are associated with line rates at which the first of the disturber link segments may operate. 7. A method of determining a supportable data rate on a victim link segment of a communications system, the method comprising: determining insertion loss values for the victim link segment; identifying a plurality of disturber link segments for the victim link segment; and determining an alien crosstalk noise from each differential pair of each disturber link segment to each differential pair of the victim link segment using a respective composite power spectral density for each disturber link segment to quantify the alien crosstalk noise that is coupled to each differential pair of the victim link segment from each differential pair of each of the disturber link segments, wherein each composite power spectral density is a piecewise combination of portions of a plurality of power spectral densities that are associated with different line rates at which the disturber link segments may operate. 8. The method of claim 7 , further comprising determining insertion loss values for each of the disturber link segments. 9. The method of claim 8 , further comprising determining near end alien crosstalk and far end alien crosstalk transfer functions from each differential pair of each of the disturber link segments to each differential pair of the victim link segment. 10. The method of claim 9 , further comprising determining a power spectral density with power back-off for the victim link segment based on a pre-selected line rate for the victim link segment. 11. The method of claim 10 , further comprising determining, for each differential pair of the victim link segment, a worst case estimate of a total alien crosstalk noise that couples onto the differential pair of the victim link segment from the differential pairs of each of the plurality of disturber link segments. 12. The method of claim 11 , further comprising determining a signal-to-alien crosstalk noise ratio for each differential pair of the victim link segment using the power spectral density with power back-off for the victim link segment and the worst case estimate of the total alien crosstalk noise that is coupled onto each differential pair of the victim link segment from the differential pairs of each of the plurality of disturber link segments. 13. The method of claim 12 , further comprising comparing the signal-to-alien crosstalk noise ratio for each differential pair of the victim link segment to respective thresholds. 14. The method of claim 7 , wherein each composite power spectral density is a worst case composite power spectral density that is formed by setting a power at each frequency based on a highest power level at the frequency in the plurality of power spectral densities. 15. The method of claim 7 , wherein power levels in each composite power spectral density are adjusted to take into account any power back-off that each of the disturber link segments would apply when operating at the different line rates at which the disturber link segments may operate. 16. The method of claim 15 , wherein different portions of a first of the composite power spectral densities are adjusted by different amounts to account for different power back-offs that apply when a first of the plurality of disturber link segments operates at different line rates. 17. A method of performing a multi-disturber alien crosstalk limited signal-to-noise ratio test, the method comprising: determining line rates at which a plurality of disturber link segments may operate; identifying a power spectral density associated with each determined line rate; combining at least two of the identified power spectral densities in a piecewise fashion to generate a composite power spectral density; and using the composite power spectral density to perform the multi-disturber alien crosstalk limited signal-to-noise ratio test. 18. The method of claim 17 , wherein combining at least two of the identified power spectral densities in a piecewise fashion to generate the composite power spectral density comprises: forming the composite power spectral density by setting a power level at each frequency in the composite power spectral density as a highest power level at the frequency from amongst the power spectral densities associated with each determined line rate. 19. The method of claim 18 , wherein combining at least two of the identified power spectral densities in a piecewise fashion to generate the composite power spectral density further comprises: reducing the set power level at each frequency in a worst case composite power spectral density by an amount of any power back-off that would apply for the disturber link segment operating at the line rate associated with one of the identified power spectral densities that was used to set the power level at the frequency in the composite power spectral density. 20. The method of claim 17 , wherein a different composite power spectral density is used for each of the plurality of disturber link segments that takes into account power back-offs at which each disturber link segment would operate.