OPTICAL CARRIER
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(Redirected from OC-192)
'Optical Carrier' levels describe a range of digital signals that can be carried on SONET fiber optic network. Synchronous Optical Network (SONET) The number in the Optical Carrier level is directly proportional to the data rate of the bitstream carried by the digital signal.
The general rule for calculating the speed of Optical Carrier lines is when a specification is given as OC-''n'', that the speed will equal ''n'' × 51.8 Mbit/s. Optical Carrier levels (OCx) Cartier C, Paynetitle T
== Optical Carrier specifications (in use)
==
OC-1 is a SONET line with transmission speeds of up to 51.84 Mbit/s (payload: 50.112 Mbit/s; overhead: 1.728 Mbit/s) using optical fiber. This base rate is multiplied for use by other OC-''n'' standards. For example, an OC-3 connection is 3 times the rate of OC-1.
OC-3 is a network line with transmission speeds of up to 155.52 Mbit/s (payload: 148.608 Mbit/s; overhead: 6.912 Mbit/s, including path overhead) using fiber optics. Depending on the system OC-3 is also known as STS-3 (electrical level) and STM-1 (SDH).
When OC-3 is not multiplexed by carrying the data from a single source, the letter ''c'' (standing for concatenated) is appended: '''OC-3c'''.
OC-3c concatenates three STS-1(OC-1) frames. Concatenated STS(OC) frames carry only one column of path overhead because they cannot be divided into finer granularity signals. Hence, OC-3c can transmit more payload to accommodate a CEPT-4 139.264 Mbit/s signal. The payload rate is 149.76 Mbit/s and overhead is 5.76 Mbit/s.
OC-12 is a network line with transmission speeds of up to 622.08 Mbit/s (payload: 601.344 Mbit/s; overhead: 20.736 Mbit/s).
OC-12 lines are commonly used by ISPs as WAN connections. While a large ISP would not use an OC-12 as a backbone (main link), it would for smaller, regional or local connections. This connection speed is also often used by mid-sized (below Tier 2) internet customers, such as web hosting companies or smaller ISPs buying service from larger ones.
OC-24 is a network line with transmission speeds of up to 1243.68 Mbit/s (payload: 1202.208 Mbit/s; overhead: 41.472 Mbit/s). Implementations of OC-24 in commercial deployments are rare.
OC-48 is a network line with transmission speeds of up to 2488.32 Mbit/s (payload: 2405.376 Mbit/s; overhead: 82.944 Mbit/s).
OC-48 connections are some of the fastest data connections in use today. Faster than OC-3, OC-12 connections, and even surpassing gigabit Ethernet, OC-48 connections are used as the backbones of many regional ISPs. Interconnections between large ISPs for purposes of peering or transit are quite common. As of 2005, the only connections in widespread use that surpass OC-48 speeds are OC-192 and 10 gigabit Ethernet.
OC-96 is a network line with transmission speeds of up to 4976.64 Mbit/s (payload: 4810.752 Mbit/s; overhead: 165.888 Mbit/s). Implementations of OC-96 in commercial deployments are rare, if ever used at all.
OC-192 is a network line with transmission speeds of up to 9953.28 Mbit/s (payload: 9621.504 Mbit/s; overhead: 331.776 Mbit/s). This along with 10 gigabit Ethernet is the fastest connection commonly available on the Internet.
A standardized variant of 10 gigabit Ethernet (10GbE), called WAN-PHY, is designed to inter-operate with OC-192 transport equipment while the common version of 10GbE is called LAN-PHY (which is not compatible with OC-192 transport equipment in its native form). The naming is somewhat misleading, because both variants are suitable for use on a wide area network.
As of 2005, OC-192 connections are the most common for use on the backbones of large ISPs.
OC-768 is a network line with transmission speeds of up to 39,813.12 Mbit/s (payload: 38,486.016 Mbit/s; overhead: 1327.104 Mbit/s).
OC-768 SONET interfaces have been available with short-reach optical interfaces from Cisco since as early as 2006. As of September 2007, Cisco will use OC-768 DWDM line cards from a third party. These line cards will plug into the Cisco chassis. These same line cards will also be made available to Siemens. These cards will use four Xilinx FPGA, a Power PC, a TI c6200 DSP, Four AMCC FEC, two DeMux and two Mux.
As the IEEE Higher Speed Study Group (HSSG) continues to define the standards for 40 gigabit and 100 gigabit Ethernet, it's becoming clear that the next-generation of high-speed network connections will be Ethernet-based. Additionally, the G.709 standard, with its unique rate-naming convention (OTU-1, OTU-2, OTU-3, etc.), will likely gain ground against pure SONET networks. "OC-3072" is less likely to enter into the networking lexicon as "OTU-4."
★ Note: All of the following OC lines are theoretical. None of these are currently in use.
Will be able to provide transmission speeds of around 13.27104 Gbit/s.
Will be able to provide transmission speeds of around 19.90656 Gbit/s.
Will be able to provide transmission speeds of around 79.62624 Gbit/s. It is unknown if such standards will be implemented in the near future.
Will be able to provide transmission speeds of around 159.25248 Gbit/s (20 GB/s). Though it is unknown if such a standard will be implemented in the near future, research based chips from IBM and Intel indicate progress towards the standard.
'Optical Carrier' levels describe a range of digital signals that can be carried on SONET fiber optic network. Synchronous Optical Network (SONET) The number in the Optical Carrier level is directly proportional to the data rate of the bitstream carried by the digital signal.
The general rule for calculating the speed of Optical Carrier lines is when a specification is given as OC-''n'', that the speed will equal ''n'' × 51.8 Mbit/s. Optical Carrier levels (OCx) Cartier C, Paynetitle T
== Optical Carrier specifications (in use)
| Contents |
| OC-3 / STM-1x |
| OC-3c |
| OC-12 / STM-4x |
| OC-24 |
| OC-48 / STM-16x / 2.5G Sonet |
| OC-96 |
| OC-192 / STM-64x / 10G Sonet |
| OC-768 / STM-256x |
| Optical Carrier specifications (unused) |
| OC-256 |
| OC-384 |
| OC-1536 |
| OC-3072 |
| References |
OC-1
OC-1 is a SONET line with transmission speeds of up to 51.84 Mbit/s (payload: 50.112 Mbit/s; overhead: 1.728 Mbit/s) using optical fiber. This base rate is multiplied for use by other OC-''n'' standards. For example, an OC-3 connection is 3 times the rate of OC-1.
OC-3 / STM-1x
OC-3 is a network line with transmission speeds of up to 155.52 Mbit/s (payload: 148.608 Mbit/s; overhead: 6.912 Mbit/s, including path overhead) using fiber optics. Depending on the system OC-3 is also known as STS-3 (electrical level) and STM-1 (SDH).
When OC-3 is not multiplexed by carrying the data from a single source, the letter ''c'' (standing for concatenated) is appended: '''OC-3c'''.
OC-3c
OC-3c concatenates three STS-1(OC-1) frames. Concatenated STS(OC) frames carry only one column of path overhead because they cannot be divided into finer granularity signals. Hence, OC-3c can transmit more payload to accommodate a CEPT-4 139.264 Mbit/s signal. The payload rate is 149.76 Mbit/s and overhead is 5.76 Mbit/s.
OC-12 / STM-4x
OC-12 is a network line with transmission speeds of up to 622.08 Mbit/s (payload: 601.344 Mbit/s; overhead: 20.736 Mbit/s).
OC-12 lines are commonly used by ISPs as WAN connections. While a large ISP would not use an OC-12 as a backbone (main link), it would for smaller, regional or local connections. This connection speed is also often used by mid-sized (below Tier 2) internet customers, such as web hosting companies or smaller ISPs buying service from larger ones.
OC-24
OC-24 is a network line with transmission speeds of up to 1243.68 Mbit/s (payload: 1202.208 Mbit/s; overhead: 41.472 Mbit/s). Implementations of OC-24 in commercial deployments are rare.
OC-48 / STM-16x / 2.5G Sonet
OC-48 is a network line with transmission speeds of up to 2488.32 Mbit/s (payload: 2405.376 Mbit/s; overhead: 82.944 Mbit/s).
OC-48 connections are some of the fastest data connections in use today. Faster than OC-3, OC-12 connections, and even surpassing gigabit Ethernet, OC-48 connections are used as the backbones of many regional ISPs. Interconnections between large ISPs for purposes of peering or transit are quite common. As of 2005, the only connections in widespread use that surpass OC-48 speeds are OC-192 and 10 gigabit Ethernet.
OC-96
OC-96 is a network line with transmission speeds of up to 4976.64 Mbit/s (payload: 4810.752 Mbit/s; overhead: 165.888 Mbit/s). Implementations of OC-96 in commercial deployments are rare, if ever used at all.
OC-192 / STM-64x / 10G Sonet
OC-192 is a network line with transmission speeds of up to 9953.28 Mbit/s (payload: 9621.504 Mbit/s; overhead: 331.776 Mbit/s). This along with 10 gigabit Ethernet is the fastest connection commonly available on the Internet.
A standardized variant of 10 gigabit Ethernet (10GbE), called WAN-PHY, is designed to inter-operate with OC-192 transport equipment while the common version of 10GbE is called LAN-PHY (which is not compatible with OC-192 transport equipment in its native form). The naming is somewhat misleading, because both variants are suitable for use on a wide area network.
As of 2005, OC-192 connections are the most common for use on the backbones of large ISPs.
OC-768 / STM-256x
OC-768 is a network line with transmission speeds of up to 39,813.12 Mbit/s (payload: 38,486.016 Mbit/s; overhead: 1327.104 Mbit/s).
OC-768 SONET interfaces have been available with short-reach optical interfaces from Cisco since as early as 2006. As of September 2007, Cisco will use OC-768 DWDM line cards from a third party. These line cards will plug into the Cisco chassis. These same line cards will also be made available to Siemens. These cards will use four Xilinx FPGA, a Power PC, a TI c6200 DSP, Four AMCC FEC, two DeMux and two Mux.
Optical Carrier specifications (unused)
As the IEEE Higher Speed Study Group (HSSG) continues to define the standards for 40 gigabit and 100 gigabit Ethernet, it's becoming clear that the next-generation of high-speed network connections will be Ethernet-based. Additionally, the G.709 standard, with its unique rate-naming convention (OTU-1, OTU-2, OTU-3, etc.), will likely gain ground against pure SONET networks. "OC-3072" is less likely to enter into the networking lexicon as "OTU-4."
★ Note: All of the following OC lines are theoretical. None of these are currently in use.
OC-256
Will be able to provide transmission speeds of around 13.27104 Gbit/s.
OC-384
Will be able to provide transmission speeds of around 19.90656 Gbit/s.
OC-1536
Will be able to provide transmission speeds of around 79.62624 Gbit/s. It is unknown if such standards will be implemented in the near future.
OC-3072
Will be able to provide transmission speeds of around 159.25248 Gbit/s (20 GB/s). Though it is unknown if such a standard will be implemented in the near future, research based chips from IBM and Intel indicate progress towards the standard.
References
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