Dark and Lit Private Lines

By: John Shepler

The Internet is a marvelous network. It enables all of us to connect to any of us anywhere in the world and at a very reasonable cost. Why wouldn’t you use the Internet for all your communications? Much of the time we do, both for personal and business needs. It works great… well, it works just fine a lot of the time. There are a few snags, though.

Network Priority
One is priority for highly sensitive applications like interactive voice and video. Say, telephone calls. There is no priority. Your voice packets get the same treatment as your next door neighbors video stream or someone backup up files to the cloud. Get in line and take your turn. When things get too busy, called network congestion, your real-time stream may break up or stop completely for a short time.

Cloud Critical Applications
The same is true for business critical applications running in the cloud. If you are taking orders, interacting with a customer or needing fast answers to deal with rapidly moving situations you may be drumming your fingers as you wait for the system to respond. Trying to make a quick financial trade in the market? Maybe it executes immediately. Maybe not. You may or may not get the price you had in mind.

Network Security
Another issue is security on the Internet. There is none. If you want security, you need to add it yourself. That means encryption. A popular way to encrypt your traffic when out of the office is by using a VPN or virtual private network. This is end to end encryption that makes it safer to use public access points like WiFi in coffee shops or send sensitive documents across the Internet. SSL or, now, TLS encryption has made possible online shopping and banking with confidence using web browers over the Internet with or without a VPN.

Improving Performance with Private Lines
You can get better network performance with private lines. Think private road versus crowded superhighway. The idea is to limit the competition from other people’s traffic.

You can still use the Internet but make it run better with a private line called DIA or dedicated Internet access. This gives you a private, not shared, connection between your location and your Internet service provider. Of course the Internet core itself is still a shared resource, but most of the congestion is in the last mile where you and hundreds or thousands of other users share the same connection to the service provider.

Direct to the Cloud
A direct cloud connection is a private line between you and your cloud service provider. Since you are the only user on that line, your cloud services should run much more like they would if the servers were right down the hall in your building. This type of connection avoids the Internet and its vagaries completely.

Why not expand that concept to your own private WAN or wide area network? This means private lines to connect your offices, factories, data centers and branch locations or retail outlets. Think of it like having your LAN expand to include all of your other business locations. You have control of the traffic and no interference from other outside users. Both privacy and performance are improved.

Dark and Lit Fiber
So far we are talking about fiber optic services, likely Ethernet over Fiber, which is the most popular connection method today. These are “lit” fiber connections where the laser equipment that maintains the signal is owned and operated by a service provider. The ultimate in performance and privacy over metropolitan and wider areas is using “dark” fiber. Dark means the fiber strands that you lease have no termination equipment at either end. You are responsible for providing the equipment that “lights” the fiber and sets the protocol. Since the glass fiber strands have nearly unlimited bandwidth, you have tremendous ability to send traffic from point to point dependent only on your budget and technical staff.

Wireless Private Lines
Finally, there is a new type of wireless service called 5G private networking or 5G network slice that lets you have the advantage of private lines while portable or mobile. It’s something like your own private corporate WiFi, but over much wider distances. Coupled with fiber optic private lines for most of your traffic, private wireless can give you a comprehensive business network wherever you are.

Is private networking right for your business? Find out what private network and security options are available now.

Fiber - Dark, Lit and Wavelength

By: John Shepler

You’ve made up your mind that a fiber optic connection to your business is no longer a luxury. It is essential to productivity. Now the question is which type of fiber to order. What? There is more than one type of fiber?

One Strand, Multiple Options
All fiber optic connections are based on the principle that modulated light waves carry information guided through a glass strand. The fiber cable coming into your building will look the same. What changes is how you terminate it.

Basically, there are three fiber options. You can order lit fiber service, dark fiber, and wavelength service. Which you pick depends on your bandwidth, security, and control requirements. Let’s see how the three compare.

Lit Fiber Bandwidth
Lit fiber bandwidth is what we normally think of when we’re talking about fiber optic service. You are leasing a service that provides a certain amount of bandwidth, usually with guarantees as to the latency, jitter, packet loss and availability.

How this is done is handled by the service provider. They will terminate a fiber strand into customer premises equipment at your location. You connect your network via fiber or copper connection, depending on the bandwidth level.

Early fiber optic implementations were based on the SONET optical carrier system and needed a specially designed interface for each service level. Today, most fiber service uses Carrier Ethernet and is good for any bandwidth up to the speed of the port that you have installed. Most companies opt for Gigabit or 10 Gigabit Ethernet, although you can often specify up to 100 Gbps in major metro areas.

You pay based on the speed of service you request. One nice feature of Carrier Ethernet or Ethernet over Fiber, as it is also called, is that the bandwidth is easily adjusted. You can install a Gigabit port and order and pay for 100 Mbps service if that’s all you need. When activity picks up, you can easily increase the bandwidth with a phone call or even online portal. Your service bandwidth will change, as will your monthly bill.

Wavelength Fiber Service
While in-house fiber optic networks might use a single laser beam to transmit data, outside carriers that run large networks use a combination of multiple strands of fiber within a single bundle and multiple wavelengths within each strand. This is a more efficient use of expensive fiber cabling and the only real way to accommodate all the traffic on the regional, national or international network.

The process of using multiple lasers, each tuned to a different frequency or wavelength is called multiplexing. All the beams exist at the same time but since they are different colors, they don’t interfere. You can imagine it something like a rainbow, although the frequencies tend to be in the infrared rather than visible band. Each separate wavelength, also called a lambda, can act like an independent fiber optic strand, although virtually. The physical strand carries them all.

There may be dozens or hundreds of different wavelengths on the same fiber strand depending on whether Coarse Wavelength Division Multiplexing (CWDM) or Dense Wavelength Division Multiplexing (DWDM) is used. Each of these wavelengths can carry lit fiber optic service or it can be leased to one customer.

When you order a wavelength, you do so because you need high bandwidth such as 10 Gbps. You also want the ability to use whatever protocol you like or multiple protocols over the same wavelength using your own multiplexing. You’ll typically provide the termination equipment that determines all this, although you might be able to lease it from the service provider. Another advantage of wavelength service is that security is improved because only your traffic uses that particular wavelength and there is no sharing of traffic between wavelengths.

Dark Fiber Service
The ultimate in control comes from having your own fiber optic network or the next best thing, a private fiber strand on your service provider’s network. This private strand is called dark fiber.

Most every Wide Area Network contains unlit fiber strands that are intended for future service expansion as traffic levels increase. It is very expensive to install fiber in trenches or on poles over long distances. The incremental cost of have more strands in the fiber bundle is usually well worth the extra expense compared to having to add more fiber cable later. Some cables have 100 or more fiber strands.

Many fiber network carriers are quite willing to lease out some of these unlit strands as long as there is plenty of capacity left for them to expand. The advantage to you is that dark fiber gives you control of the amount of bandwidth you send down the fiber, the protocols you use, and the best security you can have over long distances unless you install your own fiber cable from point to point. Once again, you provide the termination equipment at each end of the fiber run. In some cases, you can lease this from the service provider.

So, which type of fiber optic service is right for your business? Most of the time regular lit fiber bandwidth will get the job done. In special cases, wavelength service or dark fiber may be the solution. Compare options and see how much bandwidth is readily available at affordable prices for your business location.

Metro and Long Haul Dark Fiber

By: John Shepler

High performance companies with diverse locations and significant staffing may get to the point where the usual Internet access and private line offerings just won’t get the job done anymore. At that point, you may wish to take total control of your network so that you can set the standard for performance and make upgrades as quickly as they are needed.

Sounds good, but how are you going to exercise the same control over a network that leaves your premises as you do within your facilities? Get into the network provider business yourself and install fiber to each of your facilities? Hardly. That would be cost prohibitive and way too time consuming. There’s a more reasonable approach, and that is to lease dark fiber.

What is Dark Fiber?
We’re all familiar with fiber optic cables and the reliable high speed connectivity they provide. Most incumbent and competitive telecom companies now offer a wide range of bandwidth options within their service areas. Even traditional Cable companies are offering connections to their core network as an alternative to the coaxial copper drops. What is less known is that nearly all of these companies have extra fibers available within their bundles for spares, expansion and leasing. These fibers sit unlit, not installed to any network equipment.

Think about it. If you can lease a strand of dark fiber that runs very near to your business locations, it’s almost like you installed the fiber cable yourself. You pay a provider who has already gone to the trouble of installing this fiber and it is already in place. It was likely much less costly for them to do this than it would be for you, because they install many other fiber strands in the same conduit at the same time. Those strands won’t have any effect on your usage.

With dark fiber, you get access to the unlit fiber strand. You’ll need the expertise to select and install the termination equipment, but that is much easier than having to hire or contract with crews to trench the fiber conduits and negotiate the right of ways.

There Are Two Types of Dark Fiber
Dark fiber comes in two varieties, although they are closely related. The first is Metro dark fiber that is installed in cities and their related suburbs. It may be installed on poles above ground or in underground conduit. Metro fiber tends to be installed in large bundles, as there is a lot of demand for fiber optic connectivity within metropolitan areas.

The other variety of dark fiber is called long haul dark fiber. This is the fiber that runs between cities to designated points of presence. With long haul fiber, you can span the country to connect your regional offices and factories. Long haul fiber tends to use smaller glass core single mode fiber which can limit the transmission rate. It’s a tradeoff of capacity for distance.

If all of your connection requirements are within a single city, Metro dark fiber will likely get the job done. If you need to connect between cities you’ll probably need a combination of Metro and long haul dark fiber.

Dark Fiber Alternative
Dark fiber requires a budget and level of expertise that not every company can commit to, even though the control, scalability, and security are very attractive features. A related service is called dark wavelength. It is commonplace to “light” a fiber strand with a spectrum of discrete frequency lasers to create independent wavelengths or lambdas. In effect, the fiber strand becomes a set of non-interfering sub-fibers all multiplexed on the same physical strand. It is possible to lease a wavelength instead of a whole fiber at a lower cost. You still have control of the protocols used on that wavelength and it is solely dedicated to your use. If this will work for you, a dark wavelength can both save money and give you the connectivity you desire in areas when an entire strand might not be available.

Do you have a need that exceeds the typical ISP or dedicated fiber optic bandwidth service offerings? If so, explore the possibility of leasing a dark fiber or dark wavelength now.

Gigabit to 10 Gigabit to 100 Gigabit WAN

By: John Shepler

Business WAN (Wide Area Network) bandwidth needs have accelerated, as more operations are moved to the cloud and more employees are working remotely. Fortunately, there are very good provider solutions available to create high bandwidth links from point to point and to the Internet.

Fiber Optic Ethernet WAN
Fiber optic connectivity is now clearly the gold standard for business bandwidth. If you are still using legacy T1 lines, ISDN PRI, or DS3 bandwidth, you are probably running out of bandwidth and likely headed for obsolescense. Many carriers are starting to decommission their copper-based services due to high maintenance costs and declining customer interest. It’s time to upgrade.

All fiber is not created equal, however. The legacy SONET technology introduced decades ago by the telephone companies is also getting long in the tooth. What’s better? The new standard is called Carrier Ethernet or Ethernet WAN.

Fiber Optic Ethernet WAN is an extension of the switched Ethernet standard used on virtually every Local Area Network. The technical standards make it easy to connect the LAN to the WAN without going through any intermediate protocol conversions. It’s Ethernet from end to end. This is the standard that most every service provider is offering, including many of the legacy telephone companies that have adopted it for their own networks.

Advantages of Fiber Ethernet WAN include ease of scaling bandwidth without having to change interface hardware. Order 10 to 50 Mbps starter service and easily upgrade to 100 Mbps or 1 Gbps, usually by using an online portal or making a phone call. Truck rolls are seldom needed unless you are ordering service beyond what your terminal equipment can handle.

Pricing is very attractive. You can start with lower bandwidth services from 10 Mbps to 100 Mbps and likely pay the same or less than you pay now for your copper based services. You almost always get more bandwidth for the same cost or pay less for the replacement bandwidth at the same service level.

Cost savings are even more dramatic as you go up in bandwidth. The cost per Mbps or Gbps compared to legacy solutions gets lower and lower as you go up in speed. Costs have also been dropping over time as technology improves, carriers build-out fiber runs, and competition increases. If you have a contract that is more than a few years old, you can likely save money with a new service.

Multi-Gigabit Solutions
There was time, and it was only a few years ago, that 1 Gbps or 1,000 Mbps broadband or private line service was the holy grail of connectivity. Not anymore. Fiber isn’t rare the way it used to be. It’s very common, now, to have fiber running extensively in metro business areas. Often there are multiple competing providers that result in very attractive pricing.

Fiber build-outs are multiplying, as more and more businesses demand higher and higher bandwidths and cell towers are upgraded to support millimeter wave 5G cellular service.

1 Gigabit bandwidth is common for business, with more demanding applications upgrading to 10 Gigabit service. The next move is to 100 Gbps Fiber Optic Ethernet WAN. Although that may seem ridiculously high for smaller businesses, it is not unreasonable for large hospital campuses and medical centers with multiple imaging facilities. Other high users are universities, research laboratories, government entities, video production houses, architectural firms and manufacturers. With 5G wireless supporting bandwidths in excess of 1 Gbps and cable companies offering at least that much to consumers, 10 Gbps is quite reasonable for highly automated businesses that have made the transition to digital. 100 Gbps is simply the next logical increment.

Dark Fiber and Fixed Wireless Access
Lit fiber optic WAN is likely to remain the standard for business for the foreseeable future. However, there are special situations where related technical solutions make sense.

Dark Fiber is an option for businesses that want more control of their connections, almost as if they owned the link themselves. Many network providers have extra unlit fiber strands in their cables available for spares and future expansion. They may be willing to lease an entire fiber strand or a wavelength on one of the strands. What is available depends on the locations you wish to link. Advantages of dark fiber include being able to run any protocol you wish and the enhanced security of being the only user on a particular fiber or wavelength.

Fixed Wireless Access (FWA) uses microwave frequencies instead of fiber to carry the traffic. Many cellular companies use FWA to backhaul traffic to their remote towers instead of having long and isolated fiber runs. Bandwidths can be in the Gigabit to 10 Gigabit range and offer dedicated private line service or connections to the Internet. Think of FWA as fiber without the physical fiber. You have an antenna on your building instead. A major advantage of FWA is that installation can be done in days versus months to have fiber trenched in were none is currently available.

Are you ready for a bandwidth upgrade from older copper services or expensive SONET fiber? Fiber Optic Ethernet WAN, Dark Fiber and Fixed Wireless Access may offer exactly what you need at better prices than ever before.

Dark Fiber Gives You Control

By: John Shepler

Higher and higher bandwidths are expected in business IT infrastructure. That includes the local networks and leased lines for metro and wide area bandwidth. It’s about more than that, though. Just as important are parameters such as latency, packet loss and jitter. Security is a major concern for all network operations. Finally, the ability to make changes, create workarounds and rapidly bring resources online are important to keeping network operations running smoothly.

Big Bandwidth Means Big Pipes
The need for increasing bandwidth has resulted in a mass migration from copper wirelines to fiber optic cables. Copper may still make sense to the desktop, but outside network connections need the capacity of fiber.

Fiber leased lines are available from 10 Mbps to at least 10 Gbps, with 100 Gbps service becoming more readily available. They can be configured as point to point dedicated lines or dedicated Internet access. Many companies need some combination of the two. The Internet is essential to communicating with customers and suppliers. Direct lines to cloud service providers and between company facilities provide more consistent performance, lower latency and higher security.

Wavelengths are Like a Private Fiber Link
Fiber optic cables are said to have unlimited bandwidth. While that might seem like an exaggeration, in practice it is pretty hard to run out of bandwidth. Each cable has multiple fibers, sometimes as many as 100 in a bundle. Each of those fibers can carry multiple streams of non-interfering data through a process of wavelength division multiplexing.

There are two schemes. Coarse Wavelength Division Multiplexing can divide the fiber into a dozen or more laser colors called Lambdas, all traveling the same time. Dense Wavelength Division Multiplexing ups that count to 80, 96 or more separate wavelengths using more sophisticated equipment.

Note that each wavelength acts like its own fiber. It is unaware of other wavelengths on the same strand. When you lease a wavelength your data is not multiplexed with anyone else’s. You have exclusive use of all the bandwidth on that wavelength, which might be as high as 10 Gbps. Need more bandwidth? Lease another wavelength. Until the fiber bundle is fully loaded, you’ll never have to run more cable.

Dark Fiber Gives You Ultimate Control
What’s better than a wavelength? Having the entire fiber to yourself. That sounds great until you think about the cost of running your own fiber. It makes total sense on your own property, but what about connections across town or across the country? Unless you are in the business of providing carrier services, you’ll find trenching your own fiber to be cost prohibitive.

There is a way to get pretty much your own fiber. Lease an unused strand from a service provider. That’s more doable than you might think. Remember that it doesn’t make sense to go to all the trouble of burying a single fiber strand when you can bury a multi strand cable or even multiple multi strand cables for not much more cost. That way, a carrier only has to lay in the fiber once and have capacity to spare for decades.

These unused strands are called “dark” fiber because there is no laser light illuminating them. It could be your job to light the fiber. The carrier will simply give you access at each end of the fiber and the rest is up to you.

Clearly this beyond the capability of smaller companies, but they are likely well served by lit fiber options already available. Larger and more sophisticated IT organizations may be able to make good use of dark fiber for research labs, medical campuses, video content creation and transport, engineering & manufacturing, and other demanding applications.

Benefits of Dark Fiber
Owning exclusive rights to use an entire fiber is the next best thing to building your own. You do need to provide the termination equipment at each end and manage those resources. That may include your own DWDM equipment to generate multiple wavelengths for all the bandwidth you can reasonably use.

Without competing customers, there is no need for multiplexers to add and drop connections along the route. The fiber serves your locations only. The lack of unnecessary equipment in the line minimizes latency. Unlike the Internet there is no need for routers every so often to direct traffic. You not only have minimal latency, there is no reason it should vary from common carrier routing decisions, and no congestion as long as you are not overloading the capacity of the fiber or individual wavelength.

Security is another big benefit of dark fiber. There is no sharing of bandwidth among customers. This is similar to the old “nailed up” copper private point to point line. You need to trust the operator of the fiber, but don’t have to worry about the other customers. Of course, encryption on top of dedicated fiber gives you the most security you’ll get in point to point transmission.

Dark Fiber Availability
As fiber is being extensively deployed for Internet, cable television, and cellular towers, dark fiber is also becoming more and more available. Competitive fiber network operators and some cable system operators have lots and lots of extra capacity installed. They are more than happy to lease out unused strands when there are dozens sitting dark.

Do your needs demand the capacity, flexibility, and security that dark fiber offers? Find out what dark fiber options are available for your business locations.

When You Need Massive Bandwidth

By: John Shepler

Most businesses do just fine with common bandwidth offerings from telco, cable and fiber service providers. Sometimes, though, your application just won’t squeeze through the pipe. You need more than typical WAN bandwidth. You need massive bandwidth.

How Massive Are We Talking?
Over the last few decades, mirroring the growth of the Internet, WAN bandwidth needs have multiplied from a paltry T1 level of 1.5 Mbps up to 10 or 20 Mbps for the smaller businesses, at least 100 Mbps for companies with many employees, to a now commonly expected Gigabit per second.

Those bandwidths levels are easily accommodated by most service providers. Copper twisted pair can bring in 20 Mbps or so. Cable broadband is good for at least 100 Mbps and pushing 1 Gbps in many areas. Fiber optic service easily delivers 1 or 2 Gbps and can readily scale to 10 Gbps. Where you might find yourself limited is in rural or underserved locations where your choice is still T1 lines, LTE or 5G wireless, or synchronous satellite broadband.

Massive bandwidth starts at 10 Gbps and goes up from there. Can you reasonably take advantage of 100 Gbps up and down? OK. How about 400 Gbps, 800 Gbps or even a full Terabit per second? Those are carrier level services, but not out of the realm of possibility for the most data or streaming intensive businesses.

Who On Earth Needs THAT Much Bandwidth?
What were absurd levels of bandwidth are now aspirational and may become common sooner than you think. One big driver is the move of everything digital to the cloud. When your data center was just down the hall, nobody worried about bandwidth. You can string as much fiber as you want above the ceiling tiles. Once you pay for installation, usage is pretty much free.

Not so much anymore. When the connection leaves your building you lose control. You’re not going to string any cable across town, much less across several states. For that you need to hand off your traffic to a carrier or service provider. This third party will then lease you the amount of bandwidth you need, or at least can afford, for a monthly fee. The carrier, not you, takes care of all maintenance and reliability between locations.

Some companies get a surprise when they realize that the 30 Mbps Internet connection that was more than adequate when the data center was on premises is now painfully slow when all the applications are in the cloud. One solution is to install a high speed direct line to the cloud service provider and keep the old Internet connection as-is. That solves the bandwidth problem and avoids business critical apps having to deal with the vagaries of Internet performance.

Another application that just won’t play on standard connectivity is content distribution. If you are sending massive amounts of content consistently, you may need to avoid the standard Internet and move over to a purpose built privately run network called a content delivery network. These are designed to handle continuously high levels of video or data without congestion.

Sometimes you only need massive data for a brief time. Say you have Terabytes of disk drives full to the brim and you want to send that to the cloud for safe keeping or to a customer who needs those design or simulation models on their system. Shoving it through a normal connection will take forever. Is there a better option?

Colocation and Cloud Data Centers
If there is one place that you’ll find massive bandwidth already installed and running, it is in cloud and colo centers. Both are massive facilities with nearly unlimited servers, disk drives and bandwidth connections from multiple carriers. The difference between cloud and colo is that cloud centers provide all of the equipment and service needed. A colo or colocation facility lets you bring in your own equipment and set up your own data center in their racks and cages. It’s like what you would have at home, but in a shared building with plenty of space, backup power, HVAC, security and even round the clock staffing.

Some colos will provide a direct fiber hookup between your company and any others located in the same facility. if you need to connect outside, you won’t have to worry about finding a service provider or paying hefty fees to bring in service from afar. They are already inside and serving other customers. You just get a hookup at whatever bandwidth you need.

More Exotic Massive Bandwidth Options
There really is no limit to how much bandwidth you can utilize these days, other than your budget. If you can afford it, consider these options:

Wavelength Services
Most fibers are now lit with DWDM or dense wavelength division multiplexing. That means multiple lasers feeding the same fiber, but on different frequencies or wavelengths. A wavelength can handle perhaps 10 Gbps and each fiber strand can handle perhaps 100 wavelengths. Combine them all and the total bandwidth is mind boggling.

Many carriers are now leasing entire wavelengths for your use. It’s like a fiber within a fiber. Some will combine multiple wavelengths to create 100 Gbps and higher bandwidths for you, or you can lease the wavelengths and multiplex them yourself.

Dark Fiber
The ultimate in bandwidth and control is had by leasing one or more dark fiber strands. Dark means that the fiber is in the cable but totally unused at present. You add the laser termination and multiplexing equipment at each end and “light” the fiber.

Dark fiber is as close to having your own in-house cabling as you can get outdoors. There is nobody else’s traffic to contend with. You decide how much capacity to press into service. Run out of bandwidth? Just upgrade your terminal equipment. Same fiber, more Gbps. You don’t have total control. The carrier still owns and maintains the fiber physical plant, including cabling and repeaters. The rest is up to you.

Are you feeling unduly restricted when it comes to bandwidth to efficiently run your business and take advantage of new opportunities? If so, look into higher bandwidth fiber optic services now. You may find them more affordable than you think.

Encrypted Wavelengths Offer High Bandwidth and High Security

By: John Shepler

With data security becoming more and more of an issue, every weak link in the IT infrastructure needs to be identified and hardened. If your network extends beyond your premises, like most every one does, those MAN and WAN connections represent a vulnerability that has to be addressed. A relatively new service does that now for very high bandwidth users. It’s called Wavelength Encryption or Encrypted Waves.

Security of Dedicated Lines
The vulnerability of your connection can vary dramatically, depending on how your packets are getting from point A to point B. Back when the connectivity standard was a point to point T1 line, you had pretty decent security. A single line consisting of 2 twisted pair was dedicated to your use only. It was “nailed up”, as they say, meaning it was as close to a hard wire between two points that you could get. Only when you discontinued service was the connection “torn down” and the resources assigned to someone else.

Fiber Optic WAN and Multi-Tenant Networks
That’s not the way it is today. Unless you own a complete dark fiber run and light it yourself, you are sharing facilities with some and probably many other users. Note that you aren’t sharing bandwidth itself if you order a dedicated line. It’s just that high bandwidth fiber, be it SONET or Carrier Ethernet, is multiplexed to transport multiple streams of data and yours is simply stripped off the stream when it is delivered to your door.

It gets even more complicated in MPLS networks. These networks are multi-tenant by nature. The operator routes your data and that of other customers on the same core network and hands yours and only yours to you at the network edge.

Then, there's the Internet...
The security issues of the Internet need hardly be mentioned. You would have a hard time building a network that is less secure. But you don’t use the Internet for anything critical, right? If you have SDN connections over Cable Broadband or 4G Cellular, you probably are using the Internet for transport without realizing it.

Making the Insecure Secure
The answer to security jitters is encryption. On public networks, these encrypted data streams are said to be going through a “tunnel”. You can do the encryption and decryption yourself, or you can have your managed service provider take care of it.

Who Needs Encrypted Waves?
When it comes to high demand, high stakes uses, like medical data within hospital groups, there is a need for very high bandwidth channels that also have high security built-in. Level 3 Communications is at the frontier of a relatively new high performance connection called encrypted waves. These are based on the same wavelengths that are generated by coarse (CWDM) or dense (DWDM) wavelength division multiplexing. Each wavelength or set of wavelengths can deliver 10 to 100 Gbps of dedicated bandwidth. The multiplexing refers to multiple wavelengths, called colors or Lambdas, traveling over the same fiber strand. While leasing an entire wavelength does improve your security, encrypting that wavelength really adds security.

It’s simple in concept. The new wrinkle is that Level 3 is providing you with the wavelength already encrypted and protocol agnostic. Send whatever you want down the channel without having to worry about the nuts and bolts of securing that data stream.

Encrypted Wave Services Available Now
Here’s what Level 3’s Encrypted Wavelength service offers. The encryption is AES-256, the gold standard. You handle key management through your separate MyLevel3 portal that has two form factor authentication access. Ethernet speeds are supported at 10, 40 and 100 Gbps. SONET / SDH 10 Gbps is supported, as is OTU 2, 2e, 3 and 4. FICON and Fiber Channel (metro only) is supported at 8, 10 and 16 Gbps SAN. Low latency routes are optionally available for the highest performance.

Do you have high bandwidth needs that also require high security? You should take a closer look at what encrypted wavelength services have to offer. You may also be interested in dark fiber solutions. See what bandwidth options are available for your business locations now.

Dark Wavelength vs Dark Fiber for 10 GigE

By: John Shepler

Organizations that require extremely high MAN (Metropolitan Area Network) bandwidth or need to run a multitude of protocols have looked to dark fiber as a technical solution. Dark fiber is still a good choice for the most demanding applications, but there is a competitive service you should also be aware of. It’s called dark wavelength or dark lambda. Let’s look at what each has to offer and how they compare with the more common point to point and MPLS network connections.

What is a Dark Wavelength?
We think of wavelengths as colors of light, not something dark. A wavelength with no color would essentially be turned “off” and would be the same as a dark fiber, right?

Not really. The difference is that dark fiber is nothing but the glass fiber strand itself. There is no equipment attached. Somebody, and that somebody is likely you, has to install terminal equipment at each end and turn on one or more laser beams to “light” the fiber. Sometimes "managed" dark fiber is available, where the carrier will provide the terminal equipment but you'll still have exclusive use of the fiber strand.

With a dark wavelength, this has already been done. It’s not a fiber with a single color laser at one end and a detector at the other. Instead, the equipment that has been installed is DWDM or Dense Wavelength Division Multiplexing gear. What DWDM does is send multiple non-interfering laser beams down the same fiber strand to create what amount to additional channels equivalent to multiplying the number of fiber strands available.

With DWDM there is still only a single physical glass strand. The multiplexing or creating of multiple virtual fibers out of one is based on the fact that glass is transparent to more than a single color or wavelength of light. You can easily see this with a common prism. Shine white light in one side and bands of color appear on the other side. The prism shows that a number of separate colors can travel through the glass without interfering or canceling each other out.

Say you want to create a dozen different wavelengths on a single fiber. You’ll need a DWDM system that contains a dozen laser transmitters, each tuned to a slightly different wavelength or color. In practice, all the colors are in the infrared part of the spectrum and not visible colors. Nonetheless, they are referred to as colors, wavelengths or lambdas (the Greek letter used to denote wavelength).

Why go to all this trouble and expense? Simple: To multiply the capacity of a fiber cable. There are two ways to get more bandwidth from a fiber bundle. Either add more strands or use more of the inherent capacity of each strand. Adding strands means running an additional cable along the same route or replacing the cable you have with a larger diameter one that has more of the hair-thin glass fibers. Both options are incredibly expensive. Getting more from the infrastructure you already have is very attractive by comparison.

This is why DWDM is so popular. Why pull many miles of new cable at a cost of millions of dollars when you can upgrade your terminal equipment for a fraction of the cost? DWDM is a well established and standardized technology. Why not let technology save you the cost and delays involved in upgrading the physical cable?

The Dark Wavelength vs Dark Fiber Tradeoff
If you lease a dark fiber strand, you have exclusive use of that piece of glass. You have the security of knowing that only your traffic will travel over that strand. There will be other customers using other fiber strands, but there is a physical separation between you and them.

Dark fiber also gives you the flexibility of using any protocol you want and even setting up multiple protocols on the same fiber. How do you do that? By installing DWDM equipment of your own to create multiple independent wavelengths.

You can see how this can get to be expensive fast. A simple one wavelength fiber strand is one thing. You can probably get 10 Gbps bandwidth on that strand with simple equipment. DWDM is another matter. Now you need a fairly sophisticated piece of equipment at each end that you have to install, pay for and manage. For that, you can create multiple independent channels of, say, 10 Gbps each.

Instead, why not let somebody else bear that expense? That’s the basis of dark wavelength services. Someone, the carrier or service provider, has already lit the fiber with DWDM equipment that they own and operate. However, they don’t need all of the wavelength capacity themselves. If there is only enough traffic to use half the wavelengths available, the others can be leased to help pay for the system.

A dark wavelength is simply an unused wavelength on an existing fiber optic system. To be truly dark, the laser for that wavelength may be turned off or there is no card in the system for that particular channel. Either way, once someone agrees to lease the wavelength, service can be turned up fairly quickly. After all, the fiber and the DWDM chassis are already in place and operating.

Why Choose Dark Wavelength?
One reason to opt for dark wavelength service is that it may be all that is available. The owner of the fiber network may not be willing to lease an entire strand. That’s especially true if they have already lit their strands and are using some of the wavelengths.

Another attraction of dark wavelengths is equipment cost and maintenance. In theory, a provider could require you to purchase the channel cards that are compatible with their DWDM system and light the wavelength yourself. More likely, they will handle that themselves. You may or may not be asked to pay a one-time installation fee that includes the cost of the wavelength cards.

If the common carrier turns up the wavelength and maintains the system, you will have exclusive use of that particular wavelength at a bandwidth of 1, 5 or 10 Gbps. Sometimes wavelengths can be aggregated to create higher bandwidths up to 100 Gbps. Either way, only your traffic will be carried on that wavelength as whatever protocol you choose. Other customers will have their traffic on other wavelengths, but the different color beams will not interact.

Other Options
Not everyone needs or wants dark fiber or wavelength service. Many businesses only need 100 Mbps or Gigabit service. Both traditional SONET or the newer Carrier Ethernet protocols are generally available as point to point connections, ports to much larger MPLS optical networks, or Dedicated Internet Access.

What bandwidth option is best for your applications? Why not discuss your needs and get competitive quotes from multiple carriers for a range of services that can meet your needs. Then you can compare costs and benefits and pick the high bandwidth fiber optic service that best meeds your requirements.


Note: Spectrum of light wavelengths though a prism animation courtesy of Wikimedia Commons. 

The Office to Data Center Connection

By: John Shepler

Outsourcing IT applications to the cloud has become so popular that the connection to the cloud is sometimes given little consideration. Why should it be when all the action is in the remote data center? That center has a wealth of connectivity options both to the Internet and dedicated private lines. But, how do you connect with the cloud? Does it matter?

The Ubiquitous LAN Connection
To understand why office to data center connections are so important, let’s take a look at what you have now. You have your own data center right down the hall, in the basement or the next building over. Chances are that nobody gives a second thought to how they connect with that equipment because everything connects through the company LAN. All of the network equipment runs at the same speed, 100 Mbps or 1000 Mbps most likely, so one Ethernet jack is pretty much the same as another.

Performance Taken For Granted
The beauty of the in-house network is that it is well controlled and that high bandwidth and low latency are fairly easy and inexpensive to come by. After all, it’s just a copper or fiber cable running hundreds of feet at the most. Fast Ethernet and Gigabit Ethernet switches are standard. Bandwidth, jitter and latency? You can pretty much take them for granted.

If your network is converged, with voice, data and video all running on the same network, your job is a little harder. You likely need to prioritize traffic so that the sensitive audio and video streams aren’t interrupted or delayed by less sensitive data transfers. Even so, on the local network this is under your control

The Trouble With Telecom
The challenge begins at the edge of your network. This is where you hand off control to a third party. Unless you are leasing dark fiber or have a wireless or optical laser link, you need a carrier to accept your signal and transport it across town, across the country or even around the world. Your wide area connections can be as robust as your local network connections… but they aren’t necessarily.

This is where you can get into trouble. Metro and long haul connections come in many flavors, each with its own classes of service, guaranteed bandwidth, latency, jitter and packet loss.

Shared vs Dedicated
Two major categories of bandwidth service are shared and dedicated. They mean what the names imply. Shared bandwidth means that you share a pool of bandwidth with dozens or hundreds of other users. Dedicated means that you have exclusive use of a line. Whatever you don’t use sits idle.

Why would anyone opt for shared bandwidth when they could have an exclusive channel? It comes down to cost. Telecom lines are less expensive than they’ve ever been. Even so, the cost is not trivial. Consumer Internet broadband is set up as shared bandwidth in order to get the monthly charge down to something most people can accept. The same is true of 3G and 4G cellular wireless and satellite. Wireless bandwidth is scarce and expensive, so there are usage limitations imposed above and beyond the shared usage.

When Sharing Works and When It Doesn’t
For things like email, web surfing, downloading short video clips, online purchasing and other activities that aren’t very resource demanding or time critical, shared bandwidth offers an excellent tradeoff between price and performance. This is why many small businesses opt for commercial grade cable broadband as their Internet connection. For home offices, shared bandwidth is almost universal.

Where sharing become a problem is when applications are sensitive to time delays. VoIP telephony can’t take much in the way of latency caused congestion, packet loss or jitter without sounding bad or dropping calls completely. The same is true for video conferencing. One often forgotten time sensitive application is the business critical cloud application.

What Makes Cloud Stormy
Cloud and other remote data center applications have unlimited resources, right? So why should they not perform even better than when you hosted them yourself? The answer is that pesky connection back to the office. You might assume a perfect connection, but it probably isn’t so. If you are using shared bandwidth, it really isn’t so.

What happens when there are even short time delays in packets to and from the cloud? You experience hesitation in the application. You send a request. You’ll get a reply… eventually. That’s likely no more than seconds at worst, but the seeming randomness of the delays is enough to drive a user crazy. The more annoying it gets, the more productivity suffers.

The Dedicated Line Solution
The answer to effective remote data center connectivity is to make your WAN as transparent as your LAN. You do this by ordering a dedicated connection with symmetrical bandwidth and guaranteed performance for bandwidth, latency, jitter and packet loss. It’s a direct connection between you and the data center without going through the Internet and its potential bottlenecks.

Fortunately, this has become affordable for all but the smallest operations. Gigabit Ethernet and 10 GigE are now readily available for most business locations. Even 100 GigE is starting to be installed for the largest and most demanding users.

Are your applications suffering from lower than expected performance since you moved to a colocation facility or cloud service provider? If so, it’s time to look into what’s available in the way of high speed dedicated bandwidth connections.

Ethernet over Dense Wavelength Division Multiplexing (EoDWDM)

Organizations with very high bandwidth requirements, such as financial institutions, content delivery networks, video production houses, research labs, hospital groups, data centers, may need more performance than standard telecom line services can provide. One approach is to build-out a custom fiber network by installing your own fiber or leasing dark fiber strands. Another is to lease wavelengths on already lit fiber.

Your Own Fiber
Installing your own fiber on campus makes a lot of sense, since you control the property as well as the networking assets. Once you leave your premises, however, fiber construction gets very expensive very fast… even if you can obtain the necessary right-of-way permissions.

Using Dark Fiber
This is where dark fiber has found a niche. What is dark fiber? It is simply fiber optic cable that has been installed in the ground or on utility poles but never activated or “lit.” The cable may have been put in place in anticipation of future needs. Often, some strands in the cable are already in use, but there are other fiber pairs still dark.

Dark fiber has the advantage of already being in place and giving you the most flexibility in what you want to do with it. However, dark fiber assets aren’t always available where you want to go. You also have the responsibility of supplying the maintaining the terminal equipment that powers the fiber. This may be more costly that many organizations can afford and, perhaps, unnecessary.

Using Lit Fiber
The opposite of dark fiber is lit fiber. The fiber is not only installed, but the terminal equipment has been put in place and is operational. This is most often done by service providers who offer bandwidth to companies and other organizations that can use it and are located in the “service footprint” of the carrier.

Lit fiber is now popular for private connections and dedicated Internet access from 10 Mbps on up to OC-48 (2.4 Gbps) and Gigabit Ethernet (1 Gbps). A given carrier may offer either SONET, Ethernet or both protocols. All size organizations are moving from copper to fiber bandwidth services as fiber becomes more available and costs decline.

What if you need more bandwidth, higher security or more flexibility in protocols? Are you back to leasing dark fiber or installing your own?

Advantages of Wavelength Services
There’s an intermediate step that is perhaps the perfect solution to many demanding needs. This is wavelength services. While fiber cables have multiple glass strands or fibers, each fiber strand can also be divided into multiple colors or wavelengths. This is done by shining a few to dozens of different frequency laser beams down the glass fiber. Since each beam has its own wavelength, it operates independently of the other beams. It’s like fibers within fibers.

DWDM or Dense Wavelength Division Multiplexing technology can provide over 100 different wavelengths per fiber pair. This makes it very cost effective to transport private line connections for many users on a fiber network. It’s quite practical to lease one or more wavelengths for your high bandwidth applications.

Ethernet on Wavelength Services
Ethernet over DWDM or EoDWDM is a way of extending your high performance local network across town or around the country. It’s an Ethernet connection that’s available in bandwidths from 1 Gbps up to 100 Gbps and readily scaled up and down as needed. Popular service levels are 1 Gbps, 2.5 Gbps, 10 Gbps and 100 Gbps.

This is dedicated service because no one but you is using a particular wavelength. You have all the bandwidth to yourself with the security of not having other users data streams multiplexed on your circuit.

With wavelength services, such as EoDWDM, the burden of running the network is left to the service provider. Wavelengths are often called managed wavelength services because the service provider maintains the fiber, terminal equipment & repeaters plus monitors operation 24/7. You simply connect at each end. You can opt for protected service that switches to a new wavelength or fiber if the circuit fails and even diverse routes so that no one disaster is likely to knock out service completely.

Do you find yourself in an increasing bandwidth situation and wanting to consider all the options available for your particular locations? If so, get fiber optic network services and pricing, plus recommendations from expert consultants.

The How and Why of 10 Gbps WAN Bandwidth

By: John Shepler

Big data keeps getting bigger. HD video will soon be supplanted by 4K and then 8K video. IT data centers are going dark, one by one, as applications move to the cloud. Where is the bandwidth coming from to handle the demand of ever higher bit rates in the MAN and WAN?

That bandwidth is coming from fiber optic carriers who realize that every organization is going to be upsizing its data pipes or falling behind competitively. A gigabit per second was considered massive bandwidth not that many years ago. Now it’s considered entry level for many medium size and larger companies. Even consumers are anxiously awaiting universal FTTH to satisfy their ever growing media demands. Is 10 Gbps unreasonable for high performance business applications? Not at all.

The next question is how do you go about acquiring 10 Gig bandwidth once you’ve made the determination that nothing less will get the job done. Here’s an overview of the 10 Gigabit Bandwidth Options available for businesses and other organizations.


Note that SONET at the OC-192 level is still a viable option for businesses seeking 10 Gbps bandwidth. It will continue to be a good choice for some time to come because the amount of installed base of SONET/SDH fiber.

However, 10 Gigabit Ethernet is coming on strong and should be looked at carefully as the service of the future. Carrier Ethernet-native networks and those running Ethernet over SONET have big advantages in scalability and ease of deployment compared to the rather rigidly defined SONET OC levels.

The trick is to get a service port installed that is capable of providing the maximum bandwidth you’ll need. If you are considering more than 1 Gbps service, then a 10 Gigabit Ethernet port makes a lot of sense. It will allow you to incrementally scale your service bandwidth from 1 to 10 Gbps without having new terminal equipment installed. The terminal equipment is most likely to be a managed router installed by the carrier as CPE (Customer Premises Equipment).

What if you are going for the whole 10 GigE right from the start? That would merit a discussion on the cost tradeoff (if any) to have a 40 Gbps or 100 Gbps port installed right away. As outrageous as it may seem from the traditional perspective, 40 and 100 Gigabit Ethernet are real service options available today for many business locations. These are likely to become common bandwidth levels as more sophisticated applications move to the cloud.

Does it make sense to opt for wavelengths or dark fiber? It depends on what you’ll be using it for. If you need to be running multiple protocols through a point to point connection, managed wavelength service can be the right move. If you are sophisticated enough to install and maintain your own DWDM equipment, then you might get the best deal by simply leasing dark fiber to the locations you want to connect. For most businesses, though, dark fiber is beyond what they really need.

How can you tell what the best option is when there are multiple choices available? Make sure you are getting competitive quotes for as many different options and carriers as possible. It’s likely that there may at least several serving your location that you may be completely unaware of. You best choice is to work with a bandwidth broker, like Telarus, Inc., to get the best deal on 10 Gigabit or other bandwidth service.

Fiber Optic Service FAQ, Part 3

Here are more frequently asked questions and answers about fiber optic service for your business You may also be interested in the first and second lists of fiber FAQs.

Q: What is a lit building?

A: This is a building that already has fiber installed and “lit” for service. Usually only a single carrier lights each building. If your building is lit, you can easily get bandwidth services from that carrier.

Q: What are wavelength services?

A: A wavelength or Lambda is a particular color of laser light that carries the signal through the optical fiber. Early fiber systems used only a single light beam. Today, multiple beams travel the same fiber strand using a process called WDM or Wavelength Division Multiplexing. You can lease an entire wavelength for your exclusive use if you wish.

Q: Why would you lease a wavelength rather than just buying bandwidth?

A: Leasing a wavelength gives you high bandwidth dedicated to your use. Typically each wavelength supports 10 Gbps. You can decide whether to use SONET, Ethernet or some other protocol over the wavelength because the service does not share traffic with other users.

Q: What is dark fiber?

A: This refers to fiber strands that have been installed but not lit for service. Most fiber optic cable has dozens or hundreds of fiber strands all bundled together. Carriers that have extra strands they aren’t using will often lease them to other carriers or businesses that need the capacity.

Q: What’s the advantage of dark fiber?

A: Bandwidth is nearly unlimited and security is high because there is no traffic on the fiber strand other that what you provide.

Q: What protocols does dark fiber support?

A: Anything you can generate, including SONET, Ethernet, Fibre Channel and others. By using Wavelength Division Multiplexing, you can assign a different protocol to each wavelength and they won’t interact.

Q: Why wouldn’t you select dark fiber?

A: You’ll need to provide the termination equipment at each end, which can be rather expensive. On wavelength and other bandwidth services the carrier does this. Also, there may not be any dark fiber available on the route you have in mind.

Q: How does fiber support cloud services?

A: Cloud communications are bandwidth intensive. All the traffic that used to run to your in-house data center now goes over a WAN (Wide Area Network) connection to the cloud. You need high bandwidth and low latency connections for this to work properly, just what fiber is good at.

Is fiber bandwidth service the right solution to your business needs? Compare costs and service options for the fiber optic service options available for your business locations.


You may also be interested in reading Fiber Optic Service FAQs, Part 1 and Part 2.

Dark Fiber for Bandwidth and Security

The step up from copper-based bandwidth solutions to fiber optic connections is an important and necessary move for many companies. For others, it’s just not enough. Where do you go when the best service options on fiber optic lines don’t have the bandwidth or security features that you require? Dark fiber steps in where lit fiber falls short.

How can lit fiber service fall short of the mark? After all, It’s possible to get as much as 10,000 Mbps or 10 Gigabit SONET or Ethernet delivered to your door. In some cases, you can push this to OC-768 or 40 Gbps. The carriers themselves are upgrading their backbone networks to 100 Gbps.

All true, but some companies still have a need for more bandwidth, more control and more security. You get those things when you control the fiber itself rather than a service that runs on the fiber and is available to any paying customer.

What you may be looking for is called dark fiber. It’s dark because it hasn’t been “lit” with laser light yet. This is fiber that has been installed in the ground or on poles overhead but not pressed into service. There was a enormous fiber buildout in the late 1990’s that led to a fiber glut less than a decade later. The fiber was installed in anticipation of a major boom in Internet services that went flat when the tech bubble burst at the turn of the century.

Some of that fiber is still available for lease. Most, though, has been acquired and now more dark fiber is being installed. This time there looks to be no end to the demand for business bandwidth. Big data, health care automation, a move from local data centers to the cloud, and other advances are changing the landscape for business. There really isn’t any going back to the days of paper filled file cabinets or even software packages running on local PCs. We’re becoming more and more interconnected and both the size of data files and the necessary speeds of transmissions are increasing.

Carriers, financial institutions, research labs, video production companies and others who generate massive traffic may be interested in leasing dark fiber to connect two or more locations within a metro district or between cities. A number of large network operators have dark fiber assets for lease, including Zayo with fiber in the ground in many cities.

On campus, you might think about trenching your own fiber optic cable. Beyond that, you need to lease fiber from a company that is in the business of installing fiber over long distances. They invest by burying multiple cables with multiple fiber strands along the routes where they have permission to dig. You’ll probably be leasing one or two strands out of a hundred or more within the cable. Those will be your strands for the duration of the lease. You’ll need to install the equipment at both ends of the fiber run to transport your data.

The way to transport really massive amounts of data from point to point is to use Dense Wavelength Division Multiplexing (DWDM) to send multiple laser beams at slight different wavelengths or colors through the fiber. Each beam is independent and transports anywhere from 1 Gbps to 10 Gbps. DWDM might generate 100 or more separate wavelengths. Each wavelength can transport any protocol you desire independently of what any other wavelengths are doing.

Dark fiber security comes from the fact that you control the entire fiber strand. Only your equipment is connected to it. That gives any potential intruders no access points to tap into your data streams. If you need even more guarantees of security, you can always choose to encrypt your packets while they are traversing the fiber.

You don’t have to go all the way from SONET or Ethernet over Fiber to Dark Fiber. You can simply lease one or more wavelengths or go with a managed fiber solution where the fiber provider also installs and operates the termination equipment at each end. They are essentially expertly managing your fiber for you for a fee.

Do you have requirements beyond what common bandwidth solutions can accommodate? If so, find out what dark fiber assets and managed fiber services are available for the locations you have in mind.



Note: Photo of fiber optic conduit spools courtesy of Wikimedia Commons.

Choosing Dark Fiber vs Lit Fiber Service

When your applications are demanding enough to require fiber optic transmission, you’re faced with a choice. Do you order one of the lit fiber services available for your business location or do you buy or rent dark fiber and create your own transport services?

The tradeoffs can be tricky, so you’ll probably want to set up a spreadsheet to compare the performance, cost and installation time for all the services you are interested in.

Installation time? By focusing strictly on cost, you can get caught in a situation where you’ll have the best deal possible... whenever they can get it installed. That can be weeks or even months if you have a particularly difficult situation. Will that meet your needs? If you do your planning well in advance, it just might. If circumstances conspire to demand an order of magnitude bandwidth increase immediately, availability may trump lease cost.

The dark vs lit fiber tradeoff is the classic own vs rent situation. Most companies choose to survey the marketplace for bandwidth services and pick the least cost solution that meets their needs. That process is made easy by using a telecom broker, like Telarus, Inc., that represents dozens of service providers. If you have enough competition for your business, you can get much better pricing than if you are eye to eye with the only telecom sales person for a hundred miles.

One characteristic of both dark and lit fiber services is that they are extremely location sensitive. There may well be accessible fiber running on your side of the turnpike and nothing on the other side, or vice versa. Some buildings have already been “lit” by a particular carrier while others remain dark. Those dark buildings may or may not justify the construction costs of bringing in new fiber connections depending on location and how much service is needed by the tenants.

Lit fiber falls into several major categories. The traditional telecom service is SONET/SDH with OC-3 as the lowest bandwidth of 156 Mbps. An OC-3 can also carry 3 multiplexed DS3 circuits at 45 Mbps each. It’s common for companies to order DS3 and have it delivered by fiber optic cables of much higher capacity. Other SONET levels are OC-12 at 622 Mbps, OC-24 at 1.2 Gbps, OC-48 at 2.5 Gbps and OC-192 at 10 Gbps.

The hot competition for fiber optic bandwidth is Carrier Ethernet. Ethernet tends to be both more scalable and lower cost than SONET where it is available. That availability is becoming more and more common, thanks to aggressive build-outs by competitive carriers and business demand for higher bandwidths at lower costs.

Typical fiber optic Ethernet service levels are 100 Mbps Fast Ethernet, 250 Mbps, 500 Mbps, 1 Gbps Gigabit Ethernet and 10 Gbps 10GigE. Lower bandwidth such as 50 Mbps Ethernet that competes directly with DS3 may be provisioned on either copper or fiber, depending on the carrier’s available equipment.

Coming on strong for higher bandwidth fiber optic connections is wavelength services. When you order a wavelength, you are getting a virtual fiber all to yourself. Of course, there are many wavelengths on the same physical glass fiber strand, but they differ in color and do not interact. Wavelength services may sense for 10 Gbps requirements, with the added advantages of low latency and high security. With an entire wavelength dedicated to your use, you can use a different protocol than other customers on the fiber. You may be running Ethernet while others are running SONET.

The ultimate in flexibility is dark fiber. By leasing a dark fiber run, you have all the wavelengths at your disposal. You’ll have to buy the termination equipment for each end, but then you’ll have the option to light up as few or many wavelengths as you want. You can run a different protocol on each wavelength and even operate with something non-standard or experimental. Usually it is the largest companies with the most complex IT requirements that go the dark fiber route.

What type of fiber optic service makes the most sense for your operation? Don’t jump to any conclusions until you get a complete set of prices and install times for fiber optic options available for your business location or locations.



Note: Light bulb photo courtesy of Ulfbastel on Wikimedia Commons.

Wavelength Services vs Dark Fiber

Fiber optic services are popular for high bandwidth metro and long haul connections. They typically start about 100 Mbps and go on up to 10 Gbps, 40 Gbps and occasionally 100 Gbps bandwidths. But what if you find that fiber optic bandwidth services are too restrictive for your needs? There are a couple of alternatives. One is leasing dark fiber routes and the other is wavelength services. Let’s see how they compare and why you might find one more attractive than the other.

Fiber optic bandwidth services are standardized, packaged services that offer either SONET or Ethernet connectivity from point to point. You may think of them as private line services, but chances are that you are not the only customer riding on the fiber strand. At lower bandwidths, such as OC3, you are probably being electrically multiplexed with other users to create a much larger bandwidth signal that is more cost effective to transport. If you are using a 10 Gbps or 40 Gbps service, you are still sharing the strand with other users but optically multiplexed using wavelengths.

One problem with these pre-packaged fiber optic services is that they generally limit you to a particular protocol and speed. If you change your mind, it can be time consuming and costly to change or upgrade your service. For this reason, some companies have decided to become their own bandwidth providers by leasing dark fiber and lighting it up with equipment they own. This gives you the ability to have multiple protocols running on the same fiber at whatever bandwidth makes sense. When you want something different, your own engineering staff reconfigures or changes out the equipment one each end. There’s no waiting around for carrier personnel because you are the carrier. The dark fiber is just an empty pipe, as the name implies.

The trick to having multiple protocols on one fiber is called WDM or Wavelength Division Multiplexing. It’s somewhat akin to the idea of electrical multiplexing in that many different signals can share the same transport mechanism. However, technically it is quite different. WDM uses multiple wavelengths or colors of laser light that are separate enough in frequency to be distinct. All of these colors, also called lambdas, exist in the infrared portion of the light spectrum that is seen as nearly transparent through glass fiber.

Think of WDM as shining a whole rainbow of laser beams down a fiber optic cable where they are detected separately at the other end. Each beam is independent of the others. One color doesn’t care that it is running Ethernet and the next color up is carrying SONET or ESCON. They don’t see each other and don’t interfere.

Since WDM is an established technology running on just about all carrier fiber optic networks, there is no reason why you can’t just lease an entire wavelength instead of a service running on that wavelength. That’s fairly easy to do these days because many networks have excess wavelength capacity available. You can have your own wavelength running a high bandwidth Ethernet service (10 GigE) or 10 Gbps or 40 Gbps SONET.

Why lease a wavelength instead of dark fiber? For one thing, you may not need the entire capacity of the fiber or all those wavelengths you can create yourself. There’s considerable capital cost in purchasing the WDM systems for each end of the fiber that you can avoid by just leasing the wavelengths you need by the month. Capital expense and network management then become the service provider’s problem.

Dark fiber may not be available for the entire route you have in mind or you may be planning to install your own fiber in a particular area. Until it is ready, you can make good use of existing capability by leasing wavelength services as long as needed.

Dark fiber, wavelength services, Gigabit Ethernet or OCx SONET. Which is right for your needs? Get comparative pricing and availability of fiber optic services now to do a good trade off analysis.



Note: Photo courtesy of Sandia National Labratories.

Dark Fiber Community Builds Infrastructure

You hear the stories that our infrastructure is crumbling. Not all infrastructure. There’s a big construction project underway now to ring the country with a thousand fiber strands, a high bandwidth nervous system for information technology. Lighting up this dark fiber promises almost unlimited low latency bandwidth for the foreseeable future.

Why the need for this dark fiber infrastructure? It’s not so much that the old infrastructure is crumbling as it is chock full. You remember the great fiber buildout late last century? It seemed to be way overdone when the tech crash came. Indeed, it’s taken over a decade to light up all that excess fiber. There may still be some underutilized fiber rings looking to see the light, the laser light that is. But there is also an enormous additional need coming from business process automation, high frequency financial services, electronic medical records, and 4G wireless, to name a few demanding applications.

Rising to the challenge is Allied Fiber and its Dark Fiber Community. Allied fiber isn’t a carrier. They are an infrastructure builder. They are where the carriers go to get new unlit fiber routes. One of the most prestigious fiber optic carriers, AboveNet, has just joined the Dark Fiber Community to provide expertise in high performance fiber optic networking and be part of this enormous resource.

The Dark Fiber Community is an association of over 60 members that include equipment vendors, carriers, industry technical associations, financing companies and other interested parties. It’s hosted by TMCnet.com as an online resource and educational platform to support Allied Fiber.

Allied Fiber, itself, is the company that is building out and leasing this enormous national dark fiber optic backbone. It will eventually be in the form of a ring linking New York City, Chicago, Seattle, Los Angeles, Phoenix, Dallas, Houston, Jacksonville, Miami, Ashburn, VA and back to NYC. Draw a circle around the lower 48 states and you’ll have the general route for Allied Fiber.

But what if you don’t happen to be located in one of those major cities on the fiber route? Here’s the cleverness of the design. It’s not just a few long haul fiber routes. It’s two parallel routes. One is long haul between the major cities mentioned. The other, running side by side, is broken up into 60 mile segments. These short haul routes terminate in colocation huts where the laser signals are regenerated to boost them for the next segment. Inside the same hut are racks for multiplexing equipment to add and drop network services on the route. This long-haul/short haul arrangement allows Allied to provide low latency fiber between major city pairs while having the flexibility to also serve many other locations along the way and connect to other short haul routes off the major route.

One series of connections will be Fiber to the Tower or FTTT. You may not have heard of FTTT before, but you will hear plenty about it in the near future. The wireless industry is moving into 4G as fast as they can. Unfortunately, their old T1 based copper backhaul infrastructure is maxed out for bandwidth. That means new fiber connections to those cellular base stations in many cases. Allied’s FTTT plan is to provide access to the duct fiber every 1 to 2 miles in order to create lateral extensions from the main fiber route to where the towers are located.

Are you in need of higher bandwidth fiber optic services at highly competitive prices? If so, you may have more options than you think. Find out by getting prices and availability for dark and lit fiber optic bandwidth services now.



Note: Photo of workmen installing fiber optic cable courtesy of Paul Keleher on Wikimedia Commons.

Ciena Takes New Bandwidth Technologies On The Road

If you happen to be near Waltham, MA today, June 29, you have an opportunity to see the latest in carrier bandwidth technology right at your doorstep. Simply step into the Ciena Innovation Lab and check out the demos of their optical, Ethernet and software solutions. Next stop is White Marsh, MD on July 15.

What’s the Ciena Innovation Lab? It’s a semi trailer chock full of the newest telecom and networking developments. Here, take a look:



If you are involved with Gigabit and Terabit bandwidth applications, you are familiar with Ciena... or should be. Certainly, fiber optic service providers keep a keen eye on developments from the Ciena labs. But now major corporations, content providers and large medical organizations need to familiarize themselves with packet-optical transport and switching systems. Today, you may be just broaching the idea of installing Gigabit Ethernet service. Tomorrow, you may well be ordering dark fiber for your own private point to point networks.

Ciena now has platforms that make deploying 40G and 100G fiber optic connections as easy as 10G. They are ready to support carrier Ethernet services, including high speed access, backhaul and aggregation. Their software suites make it easier for you to manage optical networks, Ethernet services and other high bandwidth networks services.

Is your company ready to move up to gigabit and higher levels of service? If so, you’ll benefit from a discussion with our Telarus bandwidth brokerage consultants. No charge for this service, of course. Take just a minute or so and describe your bandwidth needs in an easy online inquiry.