Optical Ethernet Connections To The World

Fiber optic connections are becoming common for network operations. How about for WAN (Wide Area Network) connections? Are you limited to what’s available on Ethernet over Copper or forced to abandon Ethernet for an unrelated telecom protocol?

Not any more. Ethernet connections have become established and far more common than you might think. This does include the lower bandwidth options over twisted pair copper, but it also includes high speed services over fiber optic connections. With fiber, you can pretty much have all the bandwidth you care to pay for. That payment may also be a lot less than you think.

Ethernet over FIber or EoF offers a set of high bandwidth services that meet the specifications of the Metro Ethernet Forum (MEF). All together, these standardized services are referred to as Carrier Ethernet as distinguished from Ethernet that runs on a local area network. These two types of Ethernet are highly compatible. Carrier Ethernet runs in the switched configuration only. There is no CSMA/CD capability. This is actually the way most networks run today. Nearly all use switching and routing to gain full duplex performance. Carrier Ethernet also has provisions for OAM or Operations, Administration and Maintenance that is needed by carriers to ensure that the link keeps working reliably.

There are some real advantages in having standardized services available that meet the MEF requirements. Like standardized equipment, you know what you are getting and that it will interoperate or work with similar services from other vendors. Part of the rapid expansion of Carrier Ethernet is due to the ability of exchanging traffic between service providers through an Ethernet NNI or Network to Network Interface. All carriers have limited fiber optic assets and would be constrained by their own service footprints if they couldn’t interconnect with other carriers. By entering into traffic sharing arrangements, it is possible for carriers to span the nation and the globe.

Two of the standard Ethernet services you may be interested in are E-Line or Ethernet Line and E-LAN or Ethernet LAN service. E-Line is the equivalent of the point to point private line available with T-Carrier and SONET telecom services. E-LAN is something different. This is a multipoint connection that can be used to network multiple business locations as if they were on the same bridged LAN. Everything operates at layer 2 so that switched Ethernet is available across town or to the other side of the globe.

Carrier Ethernet connections are through ports on a UNI or User Network Interface. Typical fiber optic port speeds mirror standard LAN speeds of 100 Mbps Fast Ethernet, 1000 Mbps GigE and 10,000 Mbps 10GigE. This differs a bit from standard telecom services that have unique circuit interfaces for T1, DS3, OC-3, OC-12, OC-48, etc. Many carriers find it easy to install Gigabit Ethernet ports as a standard practice and then rate limit the bandwidth to the amount ordered by the customer.

The port itself will accept traffic at any speed up to the limit of the port capability. Let’s say that’s 1 Gbps. Since you have only ordered and are paying for 150 Mbps bandwidth, that’s what you’ll have on your Ethernet Line or LAN service. The real beauty of this system becomes apparent when you need to upgrade from 150 to 500 Mbps. All you need to do is call your service provider and notify them of the change. They’ll adjust the rate limit to increase your bandwidth up to the 500 Mbps level. There is no physical change to any of the equipment in the signal path. That means the change can be implemented in a matter of days or hours rather than weeks or months.

Ethernet bandwidth services often have many bandwidth increments available. You don’t have to jump from 150 to 500 Mbps. You may be able to get 200, 250, 300, 400 or some other increment offered by the carrier. Most carriers have a fine layer of granularity available because it’s all done in software.

Can you make good use of fiber optic Ethernet connections to the Internet or other business locations? If so, get prices, features and bandwidth levels available for optical Ethernet connections to your business location.



Note: Photo of Earth from space at night courtesy of NASA on Wikimedia Commons.

MPLS Point to Point Alternative

The traditional way to connect two business locations to send files back and forth is with a point to point data connection. T1 lines have been perfect for this at modest bandwidth levels. DS3 and OCx SONET services work the same way when higher speeds are needed. Ethernet line service is the latest entry into the Point to Point bandwidth space. But have you considered MPLS networks as your best value for the money?

MPLS may seem like an odd choice, since MPLS networks are really targeted for multi-point connectivity in place of older technologies like Frame Relay. MPLS networks are organized as clouds with multiple access points over the service footprint. If you have a dozen or a hundred locations to network, an MPLS solution is likely the best solution by a mile. Yet, there’s no reason you can’t just specify connecting point A to point B as your only connection.

The one possible downside might be cost. Whether a dedicated point to point line service or an MPLS network service makes sense for any given application depends a lot on the distance between locations and whether you intend to order more than one line. Why multiple lines? While some businesses have only two locations to connect, many others have three or more. The most expensive way to make multiple connections is by running point to point lines from each location to the others. A more cost effective approach is to set up a star network with the routing equipment at headquarters and point to point lines fanning out from there to each satellite location. The least cost most flexible solution is often to simply connect every location to a regional or national MPLS network and specify the connectivity within the cloud.

T1 point to point lines became popular because they are relatively inexpensive and offer the security and performance of a dedicated line. You have exclusive use of the 1.5 Mbps bandwidth in both directions. Since the line is “nailed up” to interconnect two locations, security is high. It’s difficult to impossible for snoops and troublemakers to gain access to your private line.

One disadvantage of using dedicated T1 lines is that you are limited to 1.5 Mbps per line, although you can often bond T1 lines together to multiply the bandwidth up to a maximum of 10 or 12 Mbps. Another drawback is that there is no economy of scale. Two lines cost twice as much as one line. They also tend to be priced by distance. A point to point line in town costs much less than a connection from coast to coast. If you need to cross an ocean or international border the cost goes up significantly.

Everything that has been said about T1 lines also goes for higher bandwidth options, such as DS3, OC3, and so on. The cost increases along with bandwidth. Ethernet over Copper or Ethernet over Fiber offers higher bandwidth at lower prices, but is also a dedicated line service. It’s the protocol that’s different between T1 or SONET and Ethernet services.

MPLS networks have a different cost model. The network is based on a privately owned high speed national or international fiber optic network. None of the core network is dedicated to a single customer. It is intended to be shared among many customers to amortize the cost. As such, the cost of a point to point or multipoint connection is more attractive than for a dedicated line service. In-town or close by, the dedicated line may be the cheaper solution. But for locations spaced thousands of miles apart or overseas, MPLS networks have the advantage.

What makes MPLS networks a good substitute for dedicated point to point lines is that the network offers security and guaranteed performance as well as a cost savings. The proprietary nature of the label switching protocol and the fact that access is limited to customers of the network make security much higher than on a public network like the Internet. The network operators establish the virtual paths through the network on a case by case basis. You may be sharing the fiber strands, but you can’t access another customer’s data and they can’t see yours.

Do you have a requirement to link business locations? Be sure to get MPLS network service pricing as well as dedicated line pricing for even a two location hookup to make sure you have the best deal.