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Bonded T1 is an excellent option for companies which need more bandwidth than a single T1 (1.5 Mbps) circuit can provide, but are not yet ready for the jump to fractional or full T3 (45Mbps). With bonded T1, up to eight T1 circuits can be combined, to provide a circuit of 12 megabits per second (Mbps). A DS3 (also referred to as T3) circuit is the equivalent of 28 T1s. (For more about bonded T1 please click here)
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Discussion of Frame Relay, it’s Limitations, and How it Compares to Other Options.

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Featured Article - This article describes frame relay and discusses some of its limitations.

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Bonded T1 Service Providers
ACC Airespring AT&T Broadsky Cavalier
Covad Level3 Megapath Newedge Network Innovations
Nuvox One Communications Paetec PNG Qwest
Telepacific Telnes Time Warner Telecom UCN XO

Bonded T1s allow incremental growth (the addition of one T1 at a time, as needed), more efficient budgeting (the jump from a T1 to a T3 increases monthly costs by thousands of dollars), the elimination of months of waiting while a T3 line is installed to your premises, and the thousands of dollars it would cost to install the special wiring or fiber that is needed for a T3 circuit if your building is not already “lit” (wired for DS3). Bonded T1 is provided through twisted pairs of copper wire (telephone lines). For this reason, bonded T1 is available to virtually any business in the US. Bonded T1 is often installed for free, and can be provided as managed (with router), or unmanaged (without router). Often managed bonded circuits will only cost a few dollars more than unmanaged. If your bandwidth needs exceed 12 Mbps, then fractional T3, burstable T3, or full T3 could be more efficient options, depending on your bandwidth usage patterns. Other extremely attractive alternatives to bonded T1 is ethernet over copper (EOC), or ethernet over DS1. If a business location is within range of EOC, 10 Mbps of EOC can be obtained for about $1000 per month. This is less than half of the monthly cost of the equivalent bandwidth of bonded T1. To check the availability and pricing of any of the above mentioned services for location of your business, please use the pricing tool at the top of this page. It’s free and there is no obligation. (Click here to return to top of page)

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 Is MPLS Causing Frame Relay to be Obsolete?

Written by: Dennis Green - Mar 10, 2010

MPLS (multiprotocol label switching), is only one of many factors that are resulting in a diminishment of demand for frame relay. Other factors include the lower cost of clear channel T1, increased demand for; VOIP (Voice over Internet Protocol), video conferencing, class of service (CoS), and a tendency toward converged services on one large pipe. At one time, and for many years, frame relay was considered the state-of-the-art broadband technology. This time has now passed. Many substantial businesses continue to rely on frame for their bandwidth and networking needs, but in most cases, this has more to do with procrastination and a lack of understanding about just how easy, and cost effective it would be to switch to a fully managed, any-to-any location network based on MPLS technology. In the not to distant future, virtually all companies will switch from frame, to MPLS based networks. To make this change now is virtually free. Installation is commonly free, the routers, and configuration of routers is often free, the cost of MPLS bandwidth is usually far lower than bandwidth provided with frame relay, and the speed of bandwidth provided with MPLS is often far higher than the much smaller circuits utilized with frame for the same cost. MPLS networks are often completely managed by telecom providers, thus lowering customer costs for networking staff and reducing the workload of often overworked IT personnel. MPLS has far more abilities than frame. For example, with MPLS, many applications can be provided over one circuit simultaneously. This eliminates the need for individual circuits for each application. With MPLS, the need for a multitude of permanent virtual circuits (PVCs) needed to connect various network locations is eliminated. MPLS based networks provide any-to-any network location connectivity without the need for a myriad of PVCs required with frame. MPLS easily facilitates routine data transfer, VOIP, and video conferencing simultaneously with application prioritization. This prioritization, accomplished with CoS, prevents routine data transfer from interfering with higher priority applications such as VoIP and video conferencing utilizing the same circuit.