Network element clock synchronization systems and methods using optical transport network delay measurement

What is claimed is: 1. A method, comprising: utilizing Optical Transport Network (OTN) to perform an OTN delay measurement associated with a path between a first network element and a second network element via one or more of a delay measurement of an Optical Channel Data Unit-k (ODUk) path, a delay measurement at a tandem connection, and a delay measurement at a combination of tandem connections; transmitting a time-stamped packet from the first network element to the second network element; receiving the time-stamped packet at the second network element; recovering a time stamp from the time-stamped packet to determine a packet delay measurement separate from the OTN delay measurement; and utilizing the packet delay measurement and the OTN delay measurement to adjust the second network element, wherein the first network element and the second network element each support converged packet switching and OTN transport, wherein each of the first network element and the second network element perform the packet delay measurement and the OTN delay measurement such that each of the measurements is performed by a same set of network elements, and wherein the Optical Transport Network delay measurement is added to the time stamp from the packet delay measurement to adjust the second network element to within microsecond accuracy of the first network element. 2. The method of claim 1 , further comprising: utilizing the packet delay measurement and the Optical Transport Network delay measurement to adjust a clock of the second network element to synchronize with a clock of the first network element. 3. The method of claim 1 , further comprising: operating a packet service over Optical Transport Network between the first network element and the second network element. 4. The method of claim 1 , wherein: the first network element and the second network element are connected through a plurality of intermediate network elements. 5. The method of claim 4 , further comprising: operating a packet service over Optical Transport Network between the first network element and the second network element. 6. The method of claim 5 , further comprising: synchronizing each of the plurality of intermediate network elements with the first network element. 7. The method of claim 6 , wherein the synchronizing comprises for each of the plurality of intermediate network elements: utilizing Optical Transport Network to perform a delay measurement between the first network element and one of the plurality of intermediate network elements; transmitting a time-stamped packet from the first network element to the one of the plurality of intermediate network elements; receiving the time-stamped packet at the one of the plurality of intermediate network elements; recovering a time stamp from the time-stamped packet; and utilizing the time stamp and the delay measurement to adjust the one of the plurality of intermediate network elements. 8. The method of claim 4 , further comprising: performing the Optical Transport Network delay measurement through Path Monitoring (PM) bytes in Optical Transport Network. 9. The method of claim 4 , further comprising: performing the Optical Transport Network delay measurement through one or more Tandem Connection Monitoring (TCM) bytes in Optical Transport Network. 10. The method of claim 1 , further comprising: performing the Optical Transport Network delay measurement in Optical Transport Network compliant to G.709 and G.798. 11. The method of claim 1 , wherein the first network element and the second network element do not utilize Global Positioning Satellite or Network Time Protocol for synchronization there between. 12. A network, comprising: a plurality of interconnected network elements; a packet service operating over Optical Transport Network (OTN) between a first network element and a second network element; and a processor executing an algorithm configured to synchronize a clock associated with the second network element with a clock associated with the first network element based upon a delay measurement over OTN and a delay measurement over the packet service, wherein the delay measurement over OTN comprises one or more of a delay measurement of an Optical Channel Data Unit-k (ODUk) path, a delay measurement at a tandem connection, and a delay measurement at a combination of tandem connections, and wherein the delay measurement over OTN is added to a time stamp in the delay measurement over the packet service at the second network element to adjust the second network element to within microsecond accuracy of the first network element; wherein the first network element and the second network element each utilize converged packet switching and OTN transport, and wherein each of the first network element and the second network element perform the packet delay measurement and the OTN delay measurement such that each of the measurements is performed by a same set of network elements. 13. The network of claim 12 , wherein the algorithm comprises utilizing an Optical Transport Network delay measurement between the first network element and the second network element followed by a packet delay measurement between the first network element and the second network element. 14. The network of claim 13 , wherein the algorithm comprises the second network element adjusting the clock associated with the second network element based upon the delay measurement over Optical Transport Network and the packet delay measurement. 15. The network of claim 13 , wherein the first network element and the second network element are interconnected via a plurality of intermediate network elements. 16. The network of claim 15 , wherein the algorithm utilizes Path Monitoring (PM) bytes in Optical Transport Network for the delay measurement over Optical Transport Network. 17. The network of claim 15 , wherein the algorithm utilizes one or more Tandem Connection Monitoring (TCM) bytes in Optical Transport Network for the delay measurement over Optical Transport Network. 18. A network element, comprising: a plurality of ports; a switch interconnecting the plurality of ports, wherein the switch supports packet switching and Optical Transport Network (OTN) switching; a clock; and a processor executing an algorithm configured to synchronize the clock with an external network element based upon an OTN delay measurement and a packet delay measurement between one of the plurality of ports and the external network element, wherein the OTN delay measurement comprises one or more of a delay measurement of an Optical Channel Data Unit-k (ODUk) path, a delay measurement at a tandem connection, and a delay measurement at a combination of tandem connections, wherein the OTN delay measurement is added to a time stamp in the packet delay measurement to synchronize the clock to within microsecond accuracy of the first network element, and wherein the network element is configured to perform converged packet switching and OTN transport and the OTN delay measurement and the packet delay measurement are each performed by the switch such that each of the measurements is performed by a same set of network elements comprising the network element and the external network element. 19. The network element of claim 18 , wherein the plurality of ports utilize Optical Transport Network compliant to G.709 and G.798, and wherein the one of the plurality of ports supports a packet service with the external network element. 20. The network