Pon wavelength bonding for high-rate services

What is claimed is: 1. A method for a multi-wavelength Passive Optical Network (PON) communication system comprising: identifying a specified wavelength order that specifies an order in which portions of a single data frame are to be transmitted over available wavelengths; transmitting, by a first telecommunications device, one or more data frames over a plurality of wavelengths simultaneously, wherein the one or more data frames are distributed across the plurality of wavelengths over a plurality of fixed-length segments, including: transmitting, over a first wavelength and by the first telecommunications device, a first frame of data to a second telecommunications device; transmitting, over a second wavelength and by the first telecommunications device, a first fixed-length segment of a second frame of data to the second telecommunications device while the first frame of data is being transmitted to the second telecommunications device over the first wavelength, including transmitting the first fixed-length segment of the second frame of data over a given wavelength that is highest in the wavelength order and is available to transmit data while the first frame of data is being transmitted over the first wavelength; and after transmission of the first frame of data over the first wavelength has completed and while the first fixed-length segment of the second frame of data is still being transmitted to the second telecommunications device over the second wavelength, transmitting a second fixed-length segment of the second frame of data to the second telecommunications device over the first wavelength, including: determining that the first wavelength is next highest in the wavelength order after the second wavelength; and transmitting the second fixed-length segment of the second frame of data over the first wavelength based on the determination that the first wavelength is the next highest in the wavelength order; receiving, by the second telecommunications device, the plurality of fixed-length segments over the plurality of wavelengths; and reassembling, by the second telecommunications device, the received plurality of fixed-length segments based on synchronization and delay alignment of the transmitted plurality of fixed-length segments. 2. A method comprising: identifying a specified wavelength order that specifies an order in which portions of a single data frame are to be transmitted over available wavelengths; transmitting, over a first wavelength and by an optical line terminal (OLT), a first frame of data to a first optical network unit (ONU); transmitting, over a second wavelength and by the OLT, a first portion of a second frame of data to a second ONU while the first frame of data is being transmitted to the first ONU over the first wavelength, including transmitting the first portion of the second frame of data over a given wavelength that is highest in the wavelength order and is available to transmit data while the first frame of data is being transmitted over the first wavelength; and after transmission of the first frame of data over the first wavelength has completed and while the first portion of the second frame of data is still being transmitted to the second ONU over the second wavelength, transmitting a second portion of the second frame of data to the second ONU over the first wavelength, including: determining that the first wavelength is next highest in the wavelength order after the second wavelength; and transmitting the second portion of the second frame of data over the first wavelength based on the determination that the first wavelength is the next highest in the wavelength order. 3. The method of claim 2 , further comprising: receiving the second frame of data; determining, prior to transmitting the first portion of the second frame of data, when transmission of the first frame of data over the first wavelength will be completed; and determining, based on when transmission of the first frame of data over the first wavelength will be completed, the first portion of the second frame of data that will be transmitted over the second wavelength and the second portion of the second frame of data that will be transmitted over the first wavelength. 4. The method of claim 2 , wherein the first portion of the second frame of data and the second portion of the second frame of data are both transmitted to the second ONU without a sequence number. 5. The method of claim 2 , wherein identifying the specified wavelength order comprises identifying an NG-PON2 channel numbering corresponding to wavelengths being used to transmit data. 6. The method of claim 2 , further comprising assigning various portions of the second frame of data to various different wavelengths based on the specified wavelength order. 7. The method of claim 2 , wherein frames of data are divided into one of 4 bytes segments, 8 bytes segments, or 16 bytes segments to create each of the first portion and the second portion of the second frame of data. 8. The method of claim 2 , wherein the OLT implements a dynamic allocation algorithm using wavelength as a parameter in bandwidth allocation for bonded entities. 9. The method of claim 8 , wherein the dynamic allocation algorithm allocates time grants for different wavelengths of a bonded Transmission Container (TCONT) based on which wavelengths will be available and how much data is being transmitted when in a bonded mode of operation. 10. The method of claim 2 , wherein each portion of the second frame of data is smaller than a data packet, and each portion of the second frame of data includes a plurality of fixed-length segments. 11. The method of claim 2 , further comprising: transmitting, over a third wavelength and by the first ONU, a third frame of data to the OLT; transmitting, over a fourth wavelength and by one of the first ONU and the second ONU, a first portion of a fourth frame of data to the OLT while the third frame of data is being transmitted to the OLT over the third wavelength; and after transmission of the third frame of data over the third wavelength has completed and while the first portion of the fourth frame of data is still being transmitted to the OLT over the fourth wavelength, transmitting, over the third wavelength and by the one of the first ONU and the second ONU, a second portion of the fourth frame of data to the OLT. 12. A method comprising: identifying a specified wavelength order that specifies an order in which portions of a single data frame are to be transmitted over available wavelengths; transmitting, over a first wavelength and by an optical line terminal (OLT), a first frame of data to a first optical network unit (ONU); transmitting, over a second wavelength and by the OLT, a first portion of a second frame of data to a second ONU while the first frame of data is being transmitted to the first ONU over the first wavelength; and after transmission of the first frame of data over the first wavelength has completed and while the first portion of the second frame of data is still being transmitted to the second ONU over the second wavelength, transmitting a second portion of the second frame of data to the second ONU over the first wavelength, including: determining, based on the wavelength order, that the second wavelength is last in the wavelength order and that the first wavelength is first in the wavelength order; and in response to determining that the second wavelength is last in the wavelength order and that the first wavelength is first in the wavelength order, transmitting the second portion of the second frame of data over the first wavelength, wherein transmitting the s