• What is VPLS?
• Who Uses VPLS?
• How is VPLS Deployed?
• VPLS Links

What is VPLS?
Virtual Private LAN Services, or Layer-2 VPNs, provide customers with an extension of their local network.  The customer network does not see the provider network at all, and acts as if the provider network does not exist.  This allows the customer's network administrator complete control over how the network should run.
 
To accomplish this, a combination of technologies is required, including Ethernet 802.1q VLANs, MPLS, redundancy technology (via Rapid Spanning Tree), and Quality of Service capabilities, using MRV's Ethernet Circuit technology.
 
The basic idea is to take the customer's Ethernet packets, including VLAN information, and move these packets seamlessly to other locations without affecting them.  To do this, the packets are encapsulated using MPLS technology, which provides tunnels through the provider network, independent of the customer traffic.  Of course, in order to provide this service, the provider network must be highly resilient, so advanced fault-tolerance protocols, such as Rapid Spanning Tree, are used to ensure that the packets always get to their destinations.  To combat congestion, MRV provides a sophisticated Quality of Service engine using Ethernet Circuit technology, together with MPLS traffic engineering capabilities.
 
One key feature of VPLS is simplicity.  Instead of requiring customers to connect to an IP network, with the complexity of IP routing protocols, they connect with raw Ethernet, which allows a wider range of network architectures, protocols, and capabilities.  All of this is provisioned using standards-based Ethernet and MPLS.


Who Uses VPLS?
VPLS is a new, revenue generating, service that can be provided cost-effectively to a vast number of Enterprise customers.  VPLS is especially effective in today's soft economy, where profitability is key.  Instead of cost-prohibitive routers and IP-tunneling equipment, simple Ethernet switching gear may be used to build the access and back-end networks, which allows higher bandwidth service for a lower cost of deployment.  With VPLS, both point-to-point and multi-point solutions are available.  Providers can also leverage Class-of-Service (CoS) technology to provide priority services, for example, for voice-over-IP.
 
Local, regional, and even national or worldwide providers use VPLS to provide a seamless solution for their multi-location customers.  In many cases, Utility companies will provide a metropolitan service to other local providers.  In this case, VPLS is extremely useful to allow the customers to build their networks independent of physical location.


How is VPLS Deployed?
VPLS technology makes extensive use of both IEEE 802.1q and the Martini-drafts (draft-martini-l2circuit-trans-mpls-08.txt and draft-martini-l2circuit-encap-mpls-04.txt) for packet encapsulation and transport.  At the ingress of the network, typically at the customer premises, an Ethernet switch encapsulates the customer packets with 802.1q VLANs, even if the customer already has a VLAN network.  This process, referred to as VMAN, places an additional VLAN tag on the packet, which identifies it to the provider network as belonging to the particular customer.  Any original tag is left in place, and will be regenerated on egress from the network.
 
In the core of the provider network, there are two basic options.  First, if there are only a few customers (less than 4,000), the VMAN tag may be used directly to generate the connection, without further modification.  However, to scale the network to many thousands, or tens of thousands of customers, the core network may be configured to encapsulate with MPLS technology, which places labels in the packets to identify to whom they belong and how they should be forwarded around the core network.
 
Regardless of the core network architecture, at the network egress, the original packet is restored, including any VLAN tag that the packet may have had.  This architecture allows the customer's network to be independent of the configuration of the provider's network, a critical component of any Virtual Networking service.
 
With VPLS, both point-to-point, and multi-point services may be offered.  In the multi-point case, the equipment provides the additional function of learning which stations are where on the network so that frames may be forwarded to the appropriate location.
 
Of course, the provider's network must be able to deliver service guarantees, and handle all cases of congestion.  MRV provides the Ethernet Circuit technology to solve this problem.  With Ethernet Circuits, the provider may control the bandwidth of the connection down to very fine granularity, with exceptional control over the packet rates.  In addition, the provider can offer priority services, such as voice-over-IP or other high-priority applications, by using MPLS and Ethernet CoS capabilities.
 
Finally, reliability is a key component of any provider network, especially when mission-critical multi-site networks are involved.  MRV provides full capabilities of redundancies, including both Rapid Spanning Tree and physical layer redundancy.

VPLS technology allows providers to offer profitable business services, with a low cost-of-entry.  The service is also fully scalable, enabling profitable services to be delivered to a few customers or to tens or hundreds of thousands of customers without any network overhauls along the way.


VPLS Links

• OptiSwitch and OptiSwitch-M Pages
• Layer-2 VPNs Using Tag Encapsulation and MPLS