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Data Virtual Private Networks (VPNs)
Internet−Based VPN
the same time. The philosophical point is that a dedicated network will be overbuilt in some areas and underbuilt in others. A shared network offers the hope that we can spread the overall cost out while getting the benefits of a private network. Historically, this accounts for the popularity of shared data networks beginning with X.25, Frame Relay, ATM, and now the Internet. The Internet has become a popular, low−cost backbone infrastructure.
Because of its ubiquity, many companies now want to use a secure Virtual Private Network (VPN) over the public Internet. The challenge in designing a VPN is to exploit the technologies for both intracompany and intercompany communication while still providing security. Of course the rule of thumb we now use in an Internet Protocol (IP) network is “IP on everything.” A VPN is an extension of an organization’s private intranet across a public network (that is, the Internet), creating a secure connection essentially through a tunnel. VPNs securely convey information across the Internet connecting remote users, branch offices, and business partners into the corporate network.
VPNs are owned by the carriers, but used by corporate customers, as though the customers owned them. A VPN is a secure connection that offers the privacy and management controls of a dedicated point−to−point leased line, but actually operates over a shared routed network. In the past we saw traditional networks being built as part of a leased line, point−to−point network. This was expensive and risky. A single link error brought the network down. Later a virtual networking scenario emerged using a packet−switching technology called Frame Relay. This demanded that presubscribed links were established by being premapped in logic. VPNs are created using encryption, authentication, and tunneling, a method by which data packets in one protocol are encapsulated in another protocol. Tunneling enables traffic from multiple organizations to travel across the same network, unaware of each other, as if enclosed inside their
own private steel pipe. It is easy to jump to the conclusion that the Internet is free and, therefore, there are tremendous cost savings to be had from this free shared network. Later, we will explore some cost comparisons, but as one might guess, the relative cost benefit depends very much on each network’s geography and traffic volume.