One of the topics we covered this week at the Cisco Packet Optical Networking Conference was cloud computing. A benefit of cloud computing is that the physical infrastructure – the storage and compute resources – can be located almost anywhere as long as there is reliable network access. Several countries are leveraging their low cost green power to grow their economies with new data center facilities. A publicly announced example of this is Facebook which has built an enormous facility in northern Sweden. Iceland with its cooler temperatures and green geothermal power, plus ideal location between North America and Europe has seen a significant growth in its data center industry. However, being an island nation it faces a challenge to ensure that sufficient cost-effective network capacity is available to connect off-island users with its storage and compute resources.
The Visual Networking Index predicts we’re going to hit nearly a zettabyte of traffic by 2015. Applications such as video and cloud services are consuming bandwidth on the network to the point that 10 Gbps infrastructure is insufficient. Without question, 100 Gbps technology in the data center, network core and edge, and transport is a key enabler to remove bandwidth constraints. Cisco is leading the industry in 100Gbps technology across network architecture, and two major acquisitions recently in the 100 Gbps optical component space drive innovation, reduce costs, and improve performance for our customers.
The first acquisition was CoreOptics, a Digital Signal Processing solution designer which was completed in 2010. CoreOptics provides silicon technology to deliver 100 Gbps coherent optical signals on existing (10 Gbps) fiber infrastructure. This means customers can upgrade to 100 Gbps and beyond without incurring tremendous costs. They can do this regardless if their existing fiber network is Cisco, Alcatel, or Nortel/Ciena. It’s the best 100Gbps DWDM solution in the industry with ultra long haul distances (up to 3000 km, as validated by EANTC) and highest density (3x the competition). Even better, we’ve already shown that it’s capable of taking transmission to 400 Gbps and 1 Tbps super-channels in the future.
The second acquisition, Lightwire, is a silicon photonics company with technology to enable cost-effective, very high-speed optical interconnects using CMOS-based silicon photonic optical transceivers. In non-technical terms, “CMOS” (Complementary Metal-Oxide-Semiconductor) is the industry standard for manufacturing chips without need for exotic materials or processes. This means lower power consumption, higher densities, and lower costs, all of which are critical to reducing the operational cost and carbon footprint of data centers as they scale to 100 Gbps and beyond. With this technology in-house, the advanced silicon optical technology can be utilized across our entire product portfolio.
Cisco is really stretching it out when it comes to 100 Gigabit DWDM.
Today, Cisco announced successful demonstration and validation of its coherent 100 Gigabit (100G) DWDM solution exceeding 3,000 km in reach.
Cisco is the first to deliver 100G at 3,000 km distances without the need for complex Raman optical amplification technology or signal regeneration signals. This distance is 50-percent further than any non-Raman alternative solution on the market today.
What does this mean?
Well, by eliminating the need for Raman amplification, regeneration and dispersion compensation, carriers can add 100G services on top of existing infrastructures originally designed for 10G technology. That means better investment protection and a simpler network upgrade process.
The Cisco solution has been tested at a number of service providers and research networks, including US Signal. The performance was also validated by EANTC, the European Advanced Network Test Center.
For more detail, follow the live links embedded above.
In case you might have missed it (or don’t read Russian) I wanted to call out two newsworthy items related to Cisco and 100G technology.
Last week at CiscoLive! London we announced the availability of 100GE interfaces on the Nexus 7000 to reduce bandwidth bottlenecks in the data center and help our customers meet the demands of emerging cloud computing applications. With this announcement Cisco becomes the only vendor in the industry offering an end-to-end 100G solution which includes the core (CRS), edge (ASR 9000), data center (Nexus 7000), and coherent DWDM optical transport (ONS 15454 MSTP). Furthermore we’re also one of only a handful of companies in the networking industry that owns (through our acquisition of CoreOptics) the underlying technology needed to make 100G (and beyond) a cost effective reality. With the high forecasted growth rate of the global Internet we believe that our customers will strongly benefit from the unique breadth of our solution to meet both their business and technology requirements.
The end-of-year holiday season is traditionally positioned as a chance to slow down and re-charge, but Cisco’s industry-leading products for service providers didn’t get the memo. Their momentum continued unabated.
Just two days before Christmas, Cisco announced that Dutch service provider KPN has chosen the Cisco CRS-3 multi-chassis carrier routing system, which will be deployed at the heart of KPN’s Internet peering network. The CRS-3 solution will transport all of KPN’s IP traffic to the Internet as part of KPN’s Internet Cluster Environment (ICE).
Not long before, Verizon announced that its IP network, one of the most advanced communications networks in the world, will be upgraded in the first half of 2012 with the Cisco CRS-3 to enable new services and meet growing traffic demands in several key U.S. markets, including Atlanta, Boston, Chicago, Dallas, Los Angeles, New York and Seattle.
As for the ASR 9000 edge routing system, Fibrenoire, a service provider offering Internet and private network services over an optical fiber network in Quebec and Ontario, has completed implementation of an end-to-end Cisco Carrier Ethernet System covering the Quebec City, Montreal and Toronto regions. Fibrenoire’s network is based on the ASR 9000.
Additionally, Next Communications, a Miami-based voice and video provider, has deployed Cisco technology for its IP Next-Generation Network. Integral to this will be deployment of the ASR 9000 and ASR 1000 routers for 100GE port capacity and greater resiliency.
And a couple of other interesting news items:
- Cisco and TeliaSonera teamed recently to deliver the world’s fastest Internet connection”. TeliaSonera managed a 120 Gigabit connection to the Internet at the digital entertainment festival DreamHack, using the CRS-3, ASR 9000, and Cisco ONS 15454 MSTP.
- Cisco and US Signal, a leading provider of regional transport, data center and Internet Protocol (IP) services, announced successful completion of the first 100 Gigabit (100G) coherent DWDM trial based on the industry-leading performance of the ONS 15454.