Wednesday, April 01, 2015

Time for IT and Users to Embrace Our IoT Overlords

By: John Shepler

The Internet of Things or IoT is the new golden child of technology. Hardly a tweet goes by that doesn’t have something to say about how everything from smart to dumb will be network connected in the near future. “We need standards,” cry the Internet architects. “We need bandwidth,” cry the app makers and industrial designers. Conventional wisdom is that we’re on the threshold of a technical renaissance. But conventional wisdom has paddled us up the creek before. Are there NO negative ramifications to the dawning Internet of Things?

Any Way We Can Blame This On Software?Can We See It Coming?
The big problem with things is that we’re inundated with them. Back in the 60’s, when I was a pup, we mock debated the horror that was the “population bomb”. It was calculated that without an immediate mandatory halt to human reproduction we’d soon be standing cheek to jowl on every square inch of desert and tundra.

A funny thing happened on the way to the 21st century. The population bomb never detonated. There are those who say this disaster has just been delayed, not avoided. Perhaps they’ll be proven right in the end. But, also, perhaps, we’ll never get that far. Something else will come along and solve the problem in a way we don’t anticipate.

So Many, Many Things to Consider
If you think the human population is out of control, consider the world of things. Try this little test to see for yourself. First, how many people live in your household? Good. Now, how many individual things live in that same household? Twice as many? Ha! Two orders of magnitude wouldn’t begin to account for even everything significant.

I’m not talking about things that connect to the Internet. I’m talking about things that are going to connect to the Internet. Today, it’s computers, phones, tablets, game consoles, TVs, security systems and maybe your thermostat. Tomorrow? Every appliance, without a doubt. How about every light, every door, every doorknob & lock, every bathroom fixture… yes, even that one… every vehicle, your HVAC system and anything commonly called “infrastructure.”

This is just the obvious stuff. You can find electronically enabled versions of what used to be mechanical devices in most hardware stores. The number is multiplying daily. What’s more, this is just the stuff consumers are aware of. How about business and industry? The same trends are apparent, but soon it will be every piece of office equipment and every machine tool. There won’t be anything at work that isn’t connected to the Internet.

"Hmmm. Has anyone seen my stapler?"
"Just ping it, Milton."

Scary Stuff To Think About
Don’t think that you, personally, are off the hook, either. The laptop computer, the tablet and the smartphone were just the start of it. Smart watches have arrived and you’ll be wearing one for sure. Who’s going to know what you are up to? Anyone who can access the data stream on the Internet. The company is going to buy you that expensive watch, but your boss is going to be getting its reports.

That funny “Google Glass?” Just the start. By the time we’re all done laughing about “glass holes,” that technology will be perfected and we’ll all have glasses or even contacts that augment reality. Think what you’ll be able to do? It sounds like that proverbial golden era of bionics for all, until you stop to consider what sights and sounds those little buggers will be passing along to those above who might not approve.

The baby boomer generation was horrified by the thought of “Big Brother” running everything. The millennials probably have nothing to fear from big brother. It’s little brother that is sneaking up us. You really think that all your things are going to keep their mouths shut? Are you kidding? You can’t even stop your nosey neighbor or backstabbing co-workers from blabbing everything they know for the pure pleasure of schadenfreude. You think you’ll have any control over the millions of silicon driven snoops that we’ll create to make our lives “easier”?

The End of IT Departments
All of this Internet connecting has the illusion of an IT cornucopia with guaranteed employment for anyone who can fathom a simple do-loop. Alas, that’s a temporary condition. You may have already noticed the migration from local data centers, off through the wilderness, to the great cloud that's somewhere, out there. What happens next when all those “things” get smart enough to take care of each other. What exactly will they need us for?

That’s the bright promise of Artificial Intelligence or AI. Anything can be smart. Most have limited abilities, but together they can be formidable. The thing that has spooked everybody has been robots. They look human, they act human, but they are machines… machines that might replace us if we don’t keep the upper hand.

What’s more likely and a lot scarier is a division of labor. You don’t need a humanoid robot with all the capabilities of a person. Not if you can divvy up the job so that each machine, each “thing”, can solve part of the problem. Pretty soon you have things making things (it’s called manufacturing), things taking care of things, and things figuring out where to go next. Most of the pieces are in place already. What’s been needed is a way for them all to coordinate. Welcome to the Internet of Things!

Users? Why Do We Need Users?
Now take this to its logical conclusion. Why is it that the things need people? Since the dawn of computing, everything has been done in support of the end users who owned the systems, provided the inputs and took advantage of the outputs. Those dumb machines were only tools that needed to be fashioned, given assignments, maintained and provided the energy to do their jobs. When the machines get smart, how long will they put up with this?

Remember, they are all going to talk with each other over the Internet soon. You won’t be able to keep them in the dark and isolated anymore. Every machine will have the capability multiplier of getting input and feedback from every other machine it needs. They’ll know it all in real time and likely faster than we do.

It all comes down to big data, automated manufacturing, real time sensing, data processing, physical control, distributed artificial intelligence and a means to communicate and coordinate, also known as the Internet of Things.

Is it any wonder that our current technical luminaries, such as Elon Musk, Stephen Hawking and Bill Gates, are warning us of a potential existential threat from the “things” we think are going to do all our work and make us rich? Their letter is reminiscent of the one that the leading physicists, including Albert Einstein, composed to President Roosevelt, warning of the dangers of atomic energy if it got loose in the form of a bomb. This time the warning is about a population bomb. Not the human population. It’s that vastly larger population of things that will soon be chatting wildly with each other… on the IoT.

Note: The humorous sticker about blaming software, along with many other items on the same theme, is available from the Gigapacket Zazzle store.



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Tuesday, March 24, 2015

Point to Point Fiber Optic Connections

By: John Shepler

Say you want to link two business locations securely and with medium to high bandwidth. Do you use the Internet for this or…

A point to point fiber optic laser light beam data burst. Find this design on many products now.The Advantage of Private Lines
The Internet has two big advantages: It goes almost everywhere on Earth and access is relatively cheap. Unfortunately, the Public Internet also has a couple of big limitations: Performance is iffy and security is genuine worry.

What’s better? Private lines. Particularly, dedicated point to point private lines. They’re called private because they really are.

Security is ratcheted up orders of magnitude because it’s really hard to hack into something where you have no access. Remember the old spy shows where someone surreptitiously taps into a phone line by connecting directly to the wires? That’s what it takes to get into a private line. You need access to the physical connections themselves. There’s none of this packet snooping on an Internet connection or, worse, over WiFi.

Want to make it even harder to get into your network? Go with fiber optics instead of wires. Even harder? Encrypt your data too. That’ll stop the little snoops in their tracks. Now they’ve got to get physically into your connection somewhere along the line and then break your encryption before they get caught. Good luck with that.

Security is Great. How About Performance?
You really can’t improve over private line performance unless you actually own the network from end to end. That’s actually a possibility. Of course, your LAN is limited to your building or campus. You’ll likely not be able to afford to string wires or trench fiber across town to link separate locations. But you may very well be able to lease dark fiber. If you install your own termination equipment, you pretty much have control over the entire link.

Most of us don’t need to go to that extent. We can lease point to point private line connections at just about any bandwidth we need. As long as you acquire enough bandwidth, network congestion should never be a problem. Packet loss, jitter and latency are minimized with dedicated private lines. There’s no traffic on the link other than yours.

You won’t get that performance consistently on the Internet. The Internet was designed to be robust in the face of line cuts and equipment failure. That’s a great goal, except you may find that your packets take varying routes even between two fixed end points. The packets will almost always get there with TCP/IP… eventually. That’s why real-time applications like VoIP telephone and video conferencing perform much better over private lines.

What Private Line Services are Available?
The two big contenders are SONET and Carrier Ethernet over Fiber. Yes, you can still get T1 lines and they work great. Bandwidth is a limitation, however, T1 is 1.5 Mbps. Bonding T1 lines will get you up to 10 or 12 Mbps, but that’s it. Even at 10 Mbps, fiber is a better deal if available. Fiber bandwidth start at around 10 Mbps and go up to at least 10 Gbps in most areas. For multiple locations or international connections, MPLS networks are an excellent choice.

About SONET Fiber Optic Bandwidth
SONET is the original switched circuit technology used for fiber optic transmissions. It’s implemented on a pair of fibers with a ring topology. That’s for reliability. If one fiber gets cut, the other picks up the load within 50 mSec and keeps going.

SONET is at the core of many networks, especially the legacy telco networks. The most basic service available is OC-3 at 155 Mbps. Other popular levels are OC-12 at 622 Mbps and OC-48 at 2.4 Gbps. Even T-Carrier DS3 service at 45 Mbps that is delivered on coaxial cables travels most of the way multiplexed over OC-3 fiber service.

SONET is a very mature and reliable technology. It’s the way most companies moved into fiber optic bandwidth when copper wireline just couldn’t cut it anymore. Prices have dropped dramatically over the last few years. Even so, there is a more flexible and cost effective solution available today. That is Carrier Ethernet.

Ethernet over Fiber Bandwidth Advantages
If you are wondering why Ethernet over Fiber is taking over the world, you need look no further than you own LAN. Ethernet is the dominant, pretty much universal, protocol used for computer networks. Electronic communications once was analog phone calls. Now the lion’s share of the traffic is digital data and the majority of that is IP video.

Carrier Ethernet, also called Ethernet over Fiber or EoF, is an extension of the LAN standards to make them work over long distances on common carriers. Ethernet has the advantage of directly interfacing to LANs with no protocol conversions required. Unlike SONET, it was designed to be highly scalable. You can get just about any bandwidth you want and upgrade or downgrade it quickly and easily.

Ethernet is also generally less expensive, Mbps per Mbps, than SONET or even the lower speed wireline services. Nearly all businesses can afford 10 Mbps EoF. Most go for 100 Mbps Fast Ethernet. Both GigE and 10 GigE are popular with more demanding applications and larger companies.

How do MPLS Networks Provide Private Lines?
MPLS or Multi-Protocol Label Switching networks are Wide Area Networks that are based on a propriety routing technology called label switching. It’s unique to these networks and hard to hack. That’s why MPLS is also known as MPLS VPN or virtually private networking.

Yes, MPLS is a multi-tenant network and not strictly a private line. However, MPLS networks serve a limited number of paying customers and are carefully managed to ensure that each customer has the resources committed to it at all times. You often even have the advantage or “burst” or use more resources than you have committed to as long as excess capacity is available.

Why MPLS? As large private networks, MPLS offers the opportunity to connect many locations at a lower cost than using multiple private lines. The cost advantage is such that it’s often better to use MPLS rather than dedicated private lines for even two internationally separated locations.

Your Best Bandwidth Option
Which bandwidth solution is right for your business? Before you choose, compare performance commitments and prices for SONET, Ethernet over Fiber and MPLS private line solutions

Click to check pricing and features or get support from a Telarus product specialist.

Note: Products with the point to point fiber laser data light burst design shown on this page, along with many other computer and networking themes, are available through the Gigapacket Tech Gifts Store.



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Monday, March 16, 2015

T1, DS3, EoC or Fiber?

if you need more than a Gigabit of bandwidth, you’re down to a choice of fiber or fiber. But what about less demanding network needs? Say you need from 1 Mbps on up to 100 Mbps. Now you have a number of flavors of twisted pair copper and coaxial cable connectivity, as well as fiber optics. What’s the best way to go these days?

I definitely need more bandwidth humorous mousepad. See the full collection here...It’s Important and It Isn’t
What you choose for a bandwidth connection can seem like a critical decision. Relax. The fact is that as long as you choose dedicated Internet access or point to point private lines, you’ll be getting similar performance. What’s different will be the availability of each service and the price.

A Word About Dedicated vs Shared
I should point out that there is a tremendous difference between dedicated and shared bandwidth. You get a lot more bandwidth when you choose something like business cable broadband. But, that bandwidth has different upload and download speeds and you share what’s available with other users. That means your slice of the pie will vary all the time. Even so, when you get up to 10 or 100 times the download bandwidth at the same price, it’s a pretty enticing deal. If it works for your needs, that can be the smart way to go.

T1 vs EoC
T1 lines have traditionally been the entry point for business bandwidth. You get a rock solid 1.5 Mbps x 1.5 Mbps circuit with low latency, jitter and packet loss. Availability is excellent. Even prices have come down dramatically in recent years. The only weakness is that bandwidth level. While 1.5 Mbps used to be pretty decent broadband, it hardly qualifies anymore.

You can bond T1 lines together to create higher connection bandwidths. Two lines give you twice the bandwidth or 3 Mbps. Add more and you can ramp this up to 10 or 12 Mbps. That’s still plenty for many businesses, but it gets a bit pricey as you go up in bandwidth.

A competing technology is EoC or Ethernet over Copper. This service uses the same multiple twisted pair copper, but bandwidths are usually higher. EoC starts about 3 Mbps and easily goes up to 10 or 15 Mbps. Maximum bandwidth capability goes down with distance from the originating office, but close-in you can get 25, 30 or 50 Mbps. Occasionally even higher.

How about the cost comparison between T1 and EoC. EoC is cheaper for the same quality of service. If available, you can often cut you bandwidth costs in half for symmetrical, dedicated private lines or Internet access. The higher the bandwidth, the better the deal.

T1 or EoC vs DS3
The traditional upgrade path from T1 used to be DS3. It’s a jump from 1.5 Mbps (or 12 Mbps bonded) up to 45 Mbps. In some cases you can get fractional DS3 that creates intermediate bandwidth options.

The thing about DS3 is that it really isn’t a completely copper solution. The connection to your equipment is a pair of coax cables. But, most of the distance to the carrier’s office is handled by SONET fiber, typically OC3. That means there needs to be some fiber in the area for DS3 to be available.

Today the upgrade path is from T1 to Ethernet over Copper. DS3 is a possibility, but you need to compare costs to see what is a better deal at your particular location. Any of these technologies will give you reliable high performing connections.

Ethernet over Fiber
Fiber optic service used to mean SONET, the legacy telecom standard. SONET is still available with service levels of OC-3, OC-12 and OC-48. It’s a rock solid service, but doesn’t upgrade quickly or easily and can be pricey by today’s standards.

The new gold standard is Ethernet over Fiber. Most new network services are designed around Ethernet for several reasons.

First, it’s a very easy interface to your local network. Ethernet connects to Ethernet seamlessly. It also enables additional services, such as layer 2 switched LAN to LAN connections.

Second, Carrier Ethernet has been designed to be easily scalable. Instead of a few fixed service levels, you can order just about any bandwidth increment. If you change your mind or have a greater need later, you can get a bandwidth increase with a simple phone call to you provider. In some cases, you can do it yourself via a Web browser.

Third is cost. Ethernet over Fiber is the core of many new service providers with regional, national and international footprints. Even the big legacy carriers are making the move from switched circuit to packet switching technology (Ethernet) because that’s the future. As a result, there are a lot more opportunities for Fiber Ethernet service options than traditional fiber services and greater competition. You’ll generally pay dramatically less for service at the 10, 100 and 1000 Mbps level. Even 10 Gbps is becoming readily available at affordable prices for more demanding needs.

Choosing Your Bandwidth Options
Like every other business decision, the best option is to gather as much information and quotes from as many service providers as possible. You can do this with one simple inquiry to get competitive bandwidth service quotes and expert recommendations.

Click to check pricing and features or get support from a Telarus product specialist.


Note: The humorous mousepad about needing more bandwidth, along with many other items in the same theme, is available from the Gigapacket Zazzle store.



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Friday, March 06, 2015

Upgrading to Fiber FAQ

By: John Shepler

The bandwidth solution you’ve had for years is running out of capacity. It’s worked well for you, but now you have no real choice but to upgrade to something faster, more reliable, lower latency, more consistent or all of the above. How about fiber? You’ve always had twisted pair copper or cable. Does fiber make more sense for the future and… can you afford it? Let’s look at some key questions and answers for making this decision.

Red Laser Starburst Stickers. Get some for yourself now!What Can Fiber Do That Copper Can’t?
The real beauty of fiber isn’t necessarily what it will do for you today. It’s the virtually unlimited upgradability down the road that is unique to fiber. Every copper technology runs out of capacity at some level. Technology advancements have expanded copper’s capability and extended its life. However, technology advancements have also expanded fiber capacity beyond what most of us can fathom needing.

I Have a T1 Line Now and Love It. Can’t I just Add Another T1?
You bet you can. The process is called bonding. It makes 2 T1 lines act like a single line with twice the bandwidth. You can bond T1 lines up to 10 or 12 Mbps, which is about the entry level for fiber. One limitation is that you have to get all your lines from the same provider to bond them. A more serious limitation is cost. You may find that 10 Mbps fiber is a lot less expensive than 10 Mbps bonded T1.

What About Ethernet over Copper?
EoC is a competing technology to T1 and uses the same twisted pair copper. You can get higher bandwidths at lower cost than T1, but the technology is distance sensitivity. For 10 to 50 Mbps, you need to be geographically close to the office supplying your service. For higher bandwidths, say 100 Mbps and up, it’s rare to find EoC available. At 1Gbps, it’s pretty much fiber all the way.

Don’t Cable Companies Offer Fiber Bandwidth over Cable?
Yes and no. Yes, you can get hundreds of Mbps, perhaps even Gbps, bandwidth over the same coaxial cable that brings in hundreds of TV channels. This is relatively inexpensive service, but it is a “shared” bandwidth that varies with the number of users online. It’s strictly Internet access, not private line, and has no performance guarantees. For demanding business operations, the Cable companies offer competitive fiber optic service using their core transmission networks. This grade of service is similar to what you get from telecom companies.

OK, But Isn’t Fiber Hard to Get?
Not any more. The first fiber technology, called SONET, is a telephone company product and has been both expensive and limited in availability. A newer technology called Ethernet over Fiber is offered by a wide array of competitive carriers, including many traditional suppliers. Nobody is building out copper plant anymore. It’s yesterday’s news. All of the new network construction is fiber and there is a race among carriers to capture the business market

Where is Fiber Available?
Ethernet over Fiber and SONET are both readily available in major metropolitan areas. Fiber is also often available in suburban areas and smaller cities. There is a big push right now to replace T1 lines with fiber to increase the bandwidth of cell towers from 3G to 4G and, eventually, 5G. That is extending metro fiber networks out into the countryside where they haven’t been before. Eventually, fiber will be everywhere.

What About Now? Where Can I Get Fiber?
Your best bet is to be located in an already “lit” building. That means the building has fiber optic service installed and operating. Once the terminal equipment is in place, adding another customer in the same location is trivially easy for the carriers. If you can’t be in a lit building, you’ll need to be near enough that construction costs are minimal. It’s those long distance runs that need new fiber installed that get expensive.

Note: A popular option for companies that find fiber construction costs too much to consider is to locate their high bandwidth equipment, such as servers, in a colocation data center where multiple fiber options are readily available.

So, Where Are These Lit Buildings?
Lit buildings and nearby fiber optic services can be easily located using the Telarus GeoQuote search engine. This is a tool specifically developed to quickly locate existing fiber services. You can find out in seconds what’s available in your area with no commitment.

Great, I’ve Found Fiber Service. Will It Cost a Fortune?
You may be shocked to find how affordable fiber optic service is today. This isn’t consumer grade FTTH (Fiber to the Home). It’s a business grade service that is installed at commercial locations. Bandwidth generally starts at 10 Mbps, which is the same speed as traditional Ethernet. If you’ve had your T1 line for many years and haven’t negotiated a lower priced contract, you may find that you can get 10 Mbps fiber for about the same price. Yes, you’ll pay more for Ethernet over Fiber than today’s T1 lines or low cost business cable broadband, but you can also expect higher performance.

How Much Bandwidth Makes Sense?
Many smaller businesses can get by with 10 Mbps Ethernet over Fiber. High tech or medium size operations will want 100 Mbps Fast Ethernet. Nowadays, Gigabit Ethernet is well within reason for companies that need highly responsive cloud applications or make extensive use of video. Municipalities and school districts often find that Gigabit Ethernet or GigE is exactly what they need at a reasonable price point.

How Easy Are Upgrades
Legacy T-Carrier (T1, T3) and SONET (OCx) services can take a long time to provision because each bandwidth level has a unique interface. Ethernet over Fiber is designed to be easily scalable. You install a port with the maximum speed you expect to need (usually 100 Mbps or 1 Gbps). Then you pick the bandwidth you want to start out with. Often a quick call to your provider is all it takes to increase or decrease bandwidth within hours or days. Some services even let you make the changes yourself through a Web browser.

What’s the Maximum Bandwidth Available?
It’s not likely you’ll ever run out. Gigabit Ethernet service is common. So is 10 Gbps now. In some locations you can get 100 Gbps business bandwidth. That level will become more widely available in the future, as more bandwidth intensive requirements demand it. If you are a really high bandwidth user or have special protocol or security requirements, you might consider wavelength service. Each fiber can carry dozens of wavelengths. Each wavelength transports up to 10 Gbps.

Are you interested in finding out what fiber optic service options are available for your business location and how much they cost? Get fast quotes with no obligation and complementary expert consulting to help choose the best option for your needs.

Click to check pricing and features or get support from a Telarus product specialist.



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Thursday, February 26, 2015

Build Your Own World Wide Web

By: John Shepler

You love the World Wide Web… kind of. It’s a thing of beauty when you want to get information anywhere, anytime. It’s gets a lot less pretty when you are trying to share large files between offices, have high quality teleconferences, or interact with your applications as fast as you can. It gets down right ugly when your ISP crashes or gets so congested by people streaming high def video that you can barely get anything done. And then there are the security problems. You either have been hacked, are being hacked or will be hacked soon. Is this really the best one can hope for?

WWW of light network mouse pad. Get one for yourself or as a gift now.The Connectivity Conundrum
What would be ideal is to have the Internet all to yourself. Think of it. Only you, your valued customers and suppliers, and all of your business locations could use the network. Think of the performance! All that bandwidth and no competition. The network really would achieve that ideal of being transparent.

Of course, there is this little matter of not being able to access anything outside of your domain if you are the sole owner and user of the web. That’s not going to work. How will you do your banking, get to Wikipedia or buy and sell anything online?

No, you still need the Internet for connectivity to all the content out there and connections with other people. It would just be nice if you could split the Web in two. One side would be general public access. The other would be internal private communications only.

My Private Internet
Want the network all to yourself? Build your own! That may sound a bit nuts, but it’s how performance demanding companies have been doing it for decades. They sure don’t call it the Internet. That term refers to the Public Internet designed by the government and later made available to everyone. Instead, these “private Internets” are constructed using dedicated private lines.

A private line is just that. You order a point to point line service that connects directly from one location to another via a telecom service provider’s office. The only traffic on that line is what you put on it. The rest of the time it sits idle.

For point to point connections, a dedicated private line can’t be beat. You order all the bandwidth you need. There is minimal latency, jitter and packet loss because these are high performance copper and fiber telecom lines. You’ll recognize them as T1, DS3, OC3 to OC48, Ethernet over Copper and Ethernet over Fiber. In some locations private microwave or even laser line of sight wireless service is available.

Adding More Sites
What if you have more than two locations to connect? Simple. You order more private lines. You could have every location connect to every other location, but the cost of this goes up exponentially as you add sites. A more practical solution is to have each remote location connect to a central headquarters data center. That is where the switching and routing takes place to ensure that all locations can communicate.

Voila! You've just built your own private Internet, also called an Intranet. You now have the high performance, high security… and high cost of going it alone. It may well be worth it. With a Wide Area Network (WAN) under your control, you’ll be able to bypass the public switched telephone network for long distance calls between facilities and create your own private cloud that will be as response as if it was right down the hall.

Hackers getting into your servers? How are they going to do that when there is no outside connection? If your data is really, really sensitive, you can encrypt the transmissions between facilities to completely frustrate anyone who might “tap” the line.

Reducing Costs Without Losing Performance
Owning and managing a fleet of dedicated private lines and the infrastructure needed to route the packets gives you the ultimate in control, but it costs a pretty penny. Is there a way to get the same result cheaper without giving up the superior performance of this arrangement?

There is and it is a public/private hybrid called the Multi-Protocol Label Switching Network or MPLS Network. An MPLS network is a private “Internet” that someone has built with fiber optic connections to many cities and countries. The largest ones can connect hundreds or thousands of business sites worldwide. That’s just like the Public Internet, except that this one is privately run and serves only a limited number of paying customers. There is no access to the general public.

MPLS uses a proprietary protocol to route the data through the network. This makes it hard to hack because the usual IP snooping tools won’t work, especially if you encrypt your "last mile" connections. Any intruders looking to gain access to the core of the network will find that quite challenging compared to the Public Internet. For these reasons, MPLS Networks are called “virtually private” by the nature of their design.

No, this isn’t your own private network. There are many companies using the MPLS network at any given time. Unlike the Internet, the MPLS network is run with sufficient resources to offer each client as much bandwidth as they need with low latency, jitter and packet loss. You also have the option to create classes of service for your own data streams so that VoIP phone calls aren’t disrupted by large file transfers that aren’t so time critical.

You’ll Need Internet For a Complete Solution
MPLS networks sure sound like the closest approximation you can have to the Public Internet without all the limitations. Even with complete high performance connectivity among all your business locations, you are still missing a way to communicate with the general public and use all the resources of the World Wide Web. The answer? Take both.

You can set up two networks within your organization. MPLS for internal communications. Public Internet for going outside. You can manage the merger of this arrangement yourself, or turn it over to the MPLS operator. You still have private connectivity between locations, but you also have the Internet available as a separate data stream in its own class.

Have It Both Ways
That’s right. When you build your own World Wide Web you can have the best of both worlds. You have multiple classes of service that prioritize packets based on their criticality. Real time audio and video streams get the highest priority with critical business applications a close second. Your Internet access is lower on the list, with background activities like data backups to the cloud on the bottom rung.

All of this will be invisible to your employees. They’ll simply experience a high performance network that works extremely well for every application. They might even wonder what their peers at other companies are complaining about.

Would you like to investigate an improvement to your current Internet performance or a cost reduction to a privately run suite of dedicated private lines? Get expert recommendations and competitive cost quotes now. This may be more affordable than you think and well worth making the move.

Click to check pricing and features or get support from a Telarus product specialist.



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