The Best Services At The Best Prices
We are an authorized sales representative for the leading telecommunication carriers
and are a one-stop source for unbiased advice, plus the best prices on services
from major providers of local, long distance, internet and data. As your telecom
agent, we shop multiple carriers for you and are here for the life of your account,
at no additional cost.
We specialize in auditing telecommunications and data services for small, medium,
and large companies. We will perform a comprehensive audit outlining all of your
current services, including any services in question and identify options to reduce
or bring the current expense to market pricing. We verify circuits in use, identify
unused local lines and circuits, and detail over billed charges for negotiation
with the carrier. We have found that many times the accounting department is paying
bills that they do not understand or the IT department requests cancellations of
services that do not go into effect and are still incurring cost.
We continually review and handle all of your billing questions, provide technical
support, assist you with trouble tickets with the carrier and follow through until
resolution. We also provide continued consultation as your business and communications
needs grow. Our customer’s satisfaction and their changing needs are our first priority.
VoIP (voice over IP) is an IP telephony term for a set of facilities used to manage
the delivery of voice information over the Internet. VoIP involves sending voice
information in digital form in discrete packets rather than by using the traditional
circuit-committed protocols of the public switched telephone network (PSTN). A major
advantage of VoIP and Internet telephony is that it avoids the tolls charged by
ordinary telephone service.
In addition to IP, VoIP uses the real-time protocol (RTP) to help ensure that packets
get delivered in a timely way. Using public networks, it is currently difficult
to guarantee Quality of Service (QoS). Better service is possible with private networks
managed by an
Using VoIP, an enterprise positions a "VoIP device" at a gateway. The gateway receives
packetized voice transmissions from users within the company and then routes them
to other parts of its intranet (local area or wide area network) or, using a T-carrier
system or E-carrier interface, sends them over the public switched telephone network.
Ethernet access to the Internet
Key Features & Benefits
- Ethernet access to the Internet offers a cost effective alternative to traditional
TDM circuit access
- Flexibility through comprehensive services to meet your emerging business needs
- High-speed connectivity at competitive price points
- Simplicity – Ethernet is extended from your LAN to the Internet
- Affordability of Ethernet makes implementations easier by keeping everything familiar
- Scalability as your business applications require more bandwidth, Ethernet services
can scale quickly and easily, usually without costly equipment upgrades – providing
you with a high degree of bandwidth flexibility
- Availability – network coverage where you do business
- Fast Ethernet access speeds from 5mpbs to 100 Mbps (Electrical interface)
- Gigabit Ethernet access speeds from 70mbps to 1,000 Mbps (1GB) (Optical interface)
What is MPLS?
Multiprotocol Label Switching (MPLS) is a mechanism in high-performance
networks which directs and carries data from one network node to the next
with the help of labels. MPLS makes it easy to create "virtual links" between distant
nodes. It can encapsulate packets of various network protocols.
MPLS is a highly scalable, protocol agnostic, data-carrying mechanism. In an MPLS
network, data packets are assigned labels. Packet-forwarding decisions are made
solely on the contents of this label, without the need to examine the packet itself.
This allows one to create end-to-end circuits across any type of transport medium,
using any protocol. The primary benefit is to eliminate dependence on a particular
Data Link Layer
technology, such as ATM,
frame relay, SONET or
Ethernet, and eliminate the need for multiple Layer 2 networks
to satisfy different types of traffic. MPLS belongs to the family of packet-switched networks.
MPLS operates at an
OSI Model layer that is generally considered to lie between traditional
definitions of Layer 2 (Data
Link Layer) and Layer 3 (Network Layer), and thus is often referred to as a "Layer
2.5" protocol. It was designed to provide a unified data-carrying service for both
packet-switching clients which provide a datagram service model. It can be used to carry many
different kinds of traffic, including IP packets, as well as native ATM, SONET, and
A number of different technologies were previously deployed with essentially identical
goals, such as frame
ATM. MPLS technologies have evolved with the strengths and weaknesses
ATM in mind. Many network engineers agree that ATM should be replaced with a protocol that requires
less overhead, while providing connection-oriented services for variable-length
frames. MPLS is currently replacing some of these technologies in the marketplace.
It is highly possible that MPLS will completely replace these technologies in the
future, thus aligning these technologies with current and future technology needs.
In particular, MPLS dispenses with the cell-switching and signaling-protocol baggage
of ATM. MPLS recognizes that small ATM cells are not needed in the core of modern
networks, since modern optical networks (as of 2008) are so fast (at 40 Gbit/s and
beyond) that even full-length 1500 byte packets do not incur significant real-time
queueing delays (the need to reduce such delays — e.g., to support voice traffic
— was the motivation for the cell nature of ATM).
Key Features and Benefits
- MPLS offers a flexible path to migrate from legacy data networks to a high performing,
scalable IP-based network without sacrificing the security traditionally found in
dedicated private networks.
- This service provides any-to-any connectivity to link all your domestic sites to
a single IP network that easily integrates new locations and applications. MPLS
is the ideal solution for customers with domestic locations who want to transition
from traditional packet-based Layer 2 networks or premises-based VPN solutions to
a flexible, efficient network-based IP VPN solution.
- Converge Networks: Integrate multiple disparate voice, data and video networks to
a single IP-based network supporting any-to-any connectivity. The flexible network
enables you to efficiently add new sites and applications to the network.
- Improve Network Efficiency: Flexible addressing options support either your existing
private or public LAN addressing. Static and Border Gateway (BGP) routing protocol
options allow for simplified connectivity.
- Control Via Customer Defined Policies: Designed with classes of service (CoS) to
enable you to classify traffic prioritization over a single infrastructure, allowing
high levels of performance for voice, video and data, while also providing efficient
use of bandwidth.
Cloud Computing Services
Now you can gain the dynamic scalability and cost advantages of cloud services.
With this approach to computing and storage, you access IT services over the Internet
or your own private network, and they’re delivered on demand.
Cloud Computing provides and manages the virtualized infrastructure, including network,
servers, and storage. You provide and manage the database and application. It’s
all done simply, quickly and affordably via an Internet portal. Moreover, you pay
only for the compute or storage capacity you use.
- Provision Simply – Go to the portal, access cloud services within minutes – anytime,
anywhere, and from multiple devices. Easily provision servers and storage, choosing
images from an online library.
- Scale Instantly – Tap into the portal to scale up quickly when business booms, then
scale down just as quickly when the rush is over.
- Pay as You Go – Most often cloud computing services involve no upfront charges or
long-term commitments. You pay for the cloud services you use on a per-hour basis,
charged at the end of each month.