Cortina Systems has detailed its CS605x family of transport processors that support 100 Gigabit Ethernet and Optical Transport Network (OTN).
The CS6051 transport processor architecture. Source: Cortina Systems
The application-specific standard product (ASSP) family from Cortina Systems is aimed at dense wavelength division multiplexing (DWDM) platforms, packet optical transport systems, carrier Ethernet switch routers and Internet Protocol edge and core routers. The chip family can also be used in data centre top-of-rack Ethernet aggregation switches.
"Our traditional business in OTN has been in the WDM market," says Alex Afshar, product line manager, transport products at Cortina Systems. "What we see now is demand across all those platforms."
ASSP versus FPGA
Until now, equipment makers have used field programmable gate arrays (FPGAs) to implement 100 Gigabit-per-second (Gbps) designs. This is an important sector for FPGA vendors, with Altera and Xilinx making several company acquisitions to bolster their IP offerings to address the high end sector. System vendors have also used FPGA board-based designs from specialist firm TPACK, acquired by Applied Micro in 2010.
The advantage of an FPGA design is that it allows faster entry to market, while supporting relevant standards as they mature. FPGAs also enable equipment makers to use their proprietary intellectual property (IP); for example, advanced forward error correction (FEC) codes, to distinguish their designs.
However, once a market reaches a certain maturity, ASSPs become available. "ASSPs are more efficient in terms of cost, power and integration," says Afshar.
But industry analysts point out that ASSP vendors have a battle on their hands. "In this class of product, there is a lot of customisation and proprietary design and FPGAs are well suited for that," says Jag Bolaria, senior analyst at The Linley Group.
CS605x family
The CS605x extends Cortina's existing CS604x 40Gbps OTN transport processors launched in April 2011. The CS605x devices aggregate 40 Gigabit Ethernet or OTN streams into 100Gbps or map between 100 Gigabit Ethernet and OTN frames. Combining devices from the two families enables 10 and 40 Gigabit OTN/ Ethernet traffic to be aggregated into 100 Gigabit streams.
The CS6051 is the 100 Gigabit family's flagship device. The CS6051 can interface directly to three 40Gbps optical modules, a 100 Gigabit CFP or a 12x10Gbit/s CXP module. The device also supports the Interlaken interface to 120 Gigabit (10x12.5Gbps) to interface to devices such as network processors, traffic managers and FPGAs.
The CS6051 supports several forward error correction (FEC) codes including the standard G.709, a 9.4dB coding gain FEC with only a 7% overhead, and an 'ultra-FEC' whose strength can be varied with overhead, from 7% to 20%.
The CS6053 is similar to the CS6051 but uses a standard G.709 FEC only, aimed at system vendors with their own powerful FECs such as the latest soft-decision FEC. The CS6052 supports Ethernet and OTN mapping but not aggregation while the CS6054 supports Ethernet only. It is the C6054 which is used for top-of-rack switches in the data centre.
The devices consume between 10-12W. Samples of the CS605x family have been available since October 2011 and will be in volume production in the first half of this year.
Further reading:
For a more detailed discussion of the C605x family, click on the article featured in New Electronics