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Optical transport network
Type of communications network using optical fiber links, defined by ITU-T Recommendation G.709

An optical transport network (OTN) is a digital wrapper that encapsulates frames of data, to allow multiple data sources to be sent on the same channel. This creates an optical virtual private network for each client signal.

ITU-T defines an optical transport network as a set of optical network elements (ONE) connected by optical fiber links, able to provide functionality of transport, multiplexing, switching, management, supervision and survivability of optical channels carrying client signals. An ONE may re-time, re-Amplify, re-shape (3R) but it does not have to be 3R – it can be purely photonic. Unless connected by optical fibre links, it shall not be OTN. Mere functionality of switching, management, supervision shall not make it OTN, unless the signals are carried through optical fibre. Unlike SONET/SDH, OTN provides a mechanism to manage multiplexed wavelengths in a DWDM system.

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Comparing OTN and SONET/SDH

OTNSONET/SDH
Scaling400Gbit/s (2021)340Gbit/s
Error correctingYes, Forward Error Correction, 64b/66b encoding, 512B/513B encoding, 1024B/1027B encodingYes, Forward Error Correction, BCH code
TimingDoes not requireRequires
Octet-based block frame structureFixed, 16300 ByteVariable, 2430- 622 080 Byte
Frame rateVariable (98.354 - 1.163 μs)125 μs

Standards

OTN was designed to provide higher throughput (currently 400G) than its predecessor SONET/SDH, which stops at 40 Gbit/s, per channel.

ITU-T Recommendation G.709 is commonly called Optical Transport Network (OTN) (also called digital wrapper technology or optical channel wrapper). As of December 2009, OTN has standardized the following line rates.

SignalMarketing data Rate (Gbit/s)True Signal rate (OTU) (Gbit/s)ApplicationsMaximum number of signals per channel
# of ODU0, 1.2G# of ODU1, 2.5G# of ODU2, 10G# of ODU2e, 10.4G# of ODU25, 26.4G# of ODU3, 40.3G# of ODU50, 52.8G# of ODU4, 104G
OTU12.52.66Transports SONET OC-48 or synchronous digital hierarchy (SDH) STM-16 signal21000000
OTU21010.7Transports an OC-192, STM-64 or wide area network (WAN) physical layer (PHY) for 10 Gigabit Ethernet (10GBASE-W)84100000
OTU2e410.511.1Transports a 10 Gigabit Ethernet local area network (LAN) PHY coming from IP/Ethernet switches and routers at full line rate (10.3 Gbit/s). This is specified in G.Sup43.84110000
OTU252526.4Transports a 25 Gigabit Ethernet signal2010221000
OTU34043Transports an OC-768 or STM-256 signal or a 40 Gigabit Ethernet signal.53216431100
OTU3e1/264144.5develop for transport of 10G LAN PHY, and one for 10G WAN PHY, over SDH and OTN.3216431100
OTU505052.8Transports a 50 Gigabit Ethernet signal4020552110
OTU4100111.8Transports a 100 Gigabit Ethernet signal804010102221
OTUCnn x 100n x 105.2n instances of a logically interleaved 100G (C=100) frame formatTotal bandwidth / ODU size. e.g. 200G Channel support 4xODU3 and 4xODU27

The OTUk (k=1/2/2e/3/3e2/4) is an information structure into which another information structure called ODUk (k=1/2/2e/3/3e2/4) is mapped. The ODUk signal is the server layer signal for client signals. The following ODUk information structures are defined in ITU-T Recommendation G.709

SignalData Rate (Gbit/s)Typical Applications
ODU01.24416Transport of a timing transparent transcoded (compressed) 1000BASE-X signal8 or a stream of packets (such as Ethernet, MPLS or IP) using Generic Framing Procedure
ODU12.49877512605042Transport of two ODU0 signals or a STS-48/STM-16 signal or a stream of packets (such as Ethernet, MPLS or IP) using Generic Framing Procedure.
ODU210.0372739240506Transport of up to eight ODU0 signals or up to four ODU1 signals or a STS-192/STM-64 signal or a WAN PHY (10GBASE-W) or a stream of packets (such as Ethernet, MPLS or IP) using Generic Framing Procedure
ODU2e10.3995253164557Transport of a 10 Gigabit Ethernet signal or a timing transparent transcoded (compressed) Fibre Channel 10GFC signal
ODU340.3192189830509Transport of up to 32 ODU0 signals or up to 16 ODU1 signals or up to four ODU2 signals or a STS-768/STM-256 signal or a timing transparent transcoded 40 Gigabit Ethernet signal or a stream of packets (such as Ethernet, MPLS or IP) using Generic Framing Procedure
ODU3e241.7859685595012Transport of up to four ODU2e signals
ODU4104.794445814978Transport of up to 80 ODU0 signals or up to 40 ODU1 signals or up to ten ODU2 signals or up to two ODU3 signals or a 100 Gigabit Ethernet signal
ODUflex (CBR)239⁄238 x client bit rate9Transport of a constant bitrate signal such as Fibre Channel 8GFC, InfiniBand or Common Public Radio Interface
ODUflex (GFP)any configured rate10Transport of a stream of packets (such as Ethernet, MPLS or IP) using Generic Framing Procedure

Equipment

At a very high level, the typical signals processed by OTN equipment at the Optical Channel layer are:

  • SONET/SDH
  • Ethernet/FibreChannel
  • Packets
  • OTN

A few of the key functions performed on these signals are:

  • Protocol processing of all the signals:-
    • Mapping and de-mapping of non-OTN signals into and out of OTN signals
    • Multiplexing and de-multiplexing of OTN signals
    • Forward error correction (FEC) on OTN signals
  • Packet processing in conjunction with mapping/de-mapping of packet into and out of OTN signals

Switch Fabric

The OTN signals at all data-rates have the same frame structure but the frame period reduces as the data-rate increases. As a result, the Time-Slot Interchange (TSI) technique of implementing SONET/SDH switch fabrics is not directly applicable to OTN switch fabrics. OTN switch fabrics are typically implemented using Packet Switch Fabrics.

FEC Latency

On a point-to-point OTN link there is latency due to forward error correction (FEC) processing. Hamming distance of the RS(255,239) code is 17

See also

  • Anritsu Poster - Details of all OTN areas including breakdown of the full frame [dead link‍]
Anritsu Poster - Details of all OTN areas including breakdown of the full frame at the Wayback Machine (archived 2014-05-17)

References

  1. ITU-T OTN definitions http://www.itu.int/ITU-T/2001-2004/com15/otn/definitions.html

  2. "G.709 – The Optical Transport Network (White Paper)" (PDF). VIAVI Solutions Inc. 2021. Retrieved 10 January 2024. The aim of the optical transport network (OTN) is to combine the benefits of SONET/SDH technology with the bandwidth expandability of DWDM. https://www.viavisolutions.com/en-us/literature/g709-optical-transport-network-otn-white-papers-books-en.pdf

  3. "G.709 : Interfaces for the optical transport network". https://www.itu.int/rec/T-REC-G.709-202006-I/en

  4. "G.Sup43 : Transport of IEEE 10GBASE-R in optical transport networks (OTN)". www.itu.int. Retrieved 31 October 2021. https://www.itu.int/rec/T-REC-G.Sup43

  5. OTN offers transparent service delivery Archived 2008-05-10 at the Wayback Machine, Retrieved June 2, 2007 http://www.networkworld.com/news/tech/2006/020606-techupdate.html

  6. "ITU-T G Suppl. 43 (02/2011)". ITU. Retrieved 31 October 2021. https://www.itu.int/itu-t/recommendations/rec.aspx?id=11321

  7. "200G OTN Optical Transponder/Muxponder for DCI Network". FS.com. Retrieved 31 October 2021. https://www.fs.com/products/111049.html

  8. "ODU0 and ODUflex — A Future-Proof Solution for OTN Client Mapping" (PDF). TPACK A/S. February 2010. Archived from the original (PDF) on 12 March 2012. https://web.archive.org/web/20120312045120/http://squiz.informatm.com/__data/assets/pdf_file/0007/194623/ODU0_ODUflex_White_Paper_2010_02_15_v1_web.pdf

  9. "ODU0 and ODUflex — A Future-Proof Solution for OTN Client Mapping" (PDF). TPACK A/S. February 2010. Archived from the original (PDF) on 12 March 2012. https://web.archive.org/web/20120312045120/http://squiz.informatm.com/__data/assets/pdf_file/0007/194623/ODU0_ODUflex_White_Paper_2010_02_15_v1_web.pdf

  10. "ODU0 and ODUflex — A Future-Proof Solution for OTN Client Mapping" (PDF). TPACK A/S. February 2010. Archived from the original (PDF) on 12 March 2012. https://web.archive.org/web/20120312045120/http://squiz.informatm.com/__data/assets/pdf_file/0007/194623/ODU0_ODUflex_White_Paper_2010_02_15_v1_web.pdf