EXFO FTB/IQS-85100G Packet Blazer for FTB-500/IQS-600 User Manual
Page 380
Glossary
370
FTB/IQS-85100G
G.709 Optical Transport Network (OTN)
Framing
The OTU framing is divided into two portions: FAS and MFAS.
The frame alignment signal (FAS) uses the first six bytes and, similarly
to SONET/SDH, it is used to provide framing for the entire signal. In
order to provide enough 1/0 transitions for synchronization, scrambling
is used over the entire OTU frame, except for the FAS bytes.
The multiframe alignment signal (MFAS) byte is used to extend
command and management functions over several frames. The MFAS
counts from 0 to 255, providing a 256 multiframe structure.
Overhead
Each portion of the OTU frame has its own specific overhead functions.
They are displayed in figure OTU Frame Description on page 369, and
are briefly described below. Further details can be found about these
overhead fields in the ITU G.709 standard.
Optical channel Transport Lane (OTL)
The Optical channel Transport Lane (OTL) is an adaptation layer
whose purpose is to re-use the modules developed for Ethernet
40GBASE-R and 100GBASE-LR4. These modules have a four-lane
WDM interface to and from a transmit/receive pair of G.652 optical
fibers, and connect to the host board via a 4-lane (OTL3.4) or
10-lane (OTL4.10) electrical interface.
The OTL layer is responsible for mapping the serial OTU signal
onto a parallel path designated lanes. In the case of OTU4 the
signal is distributed over 20 logical lanes and for OTU3 the signal is
distributed over 4 logical lanes.