Definitive MPLS Network Designs [Electronic resources] نسخه متنی

USCom's Network Environment

USCom has been offering Internet access for many years to other service providers (wholesale), Enterprises, and small/medium business customers. It currently has an installed base of more than 35,000 Internet ports. These Internet ports are supported on 350 Internet edge routers (called Internet access provider edge [PE] routers) located in their 100 Points of Presence (POPs) that are situated across the country. Internet connectivity is obtained via transit providers, private peering sessions, and connections in major cities to various Network Access Points (NAPs).

USCom has also had great success with its Layer 3 Multiprotocol Label Switching (MPLS) VPN service (which is based on the architecture described in [2547bis]) since its inception in 2002. Acceptance of the service has grown throughout USCom's customer base. Currently some 12,500 VPN ports are installed across the country, and this number is growing considerably on a monthly basis. The customer-managed customer edge (CE) [L2VPN]. If you want to know more about this resource, look up the code in this book's appendix and you can find out specific information about the resource.

USCom owns fiber across the country and is running a long-distance optical core based on dense wavelength division multiplexing (DWDM) technology. This translates to availability of raw high-speed links (OC-48 (2.488 Gbps) and OC-192 (10 Gbps)) for provider router (P router) and PE router interconnection, at relatively low cost and provisioning time. USCom can activate additional capacity by enabling additional wavelengths (lambdas) in a relatively short time frame. USCom takes advantage of this to enforce an overengineering policy for core router links.

The high-speed core links are provided to routers as native lambdas straight from the DWDM equipment without any intermediate SONET Add/Drop Multiplexer (ADM). (Note that SONET framing is in use between the routers and the DWDM equipment.) These links do not benefit from any protection at the optical level. Some links interconnecting P routers and PE routers are provided through a SONET infrastructure overlaid over the optical infrastructure. The SONET links are protected by means of SONET protection provided by Bidirectional Line Switch Rings (BLSRs) with four fibers, also called BLSR/4. (See [NET-RECOV] for more details on SONET-SDH recovery mechanisms.)

Intra-POP connectivity is achieved via Packet over SONET (PoS) or switched Gigabit Ethernet. Because of the relatively low cost of switched Gigabit Ethernet technology and the negligible cost of fibers within a premises, USCom also maintains an overengineered intra-POP capacity.

Access from CE router to PE router for both Internet and Layer 3 MPLS VPN connectivity is provided via Frame Relay, ATM, leased line, or SONET. Each of these physical (or logical) links is dedicated to a single CE router. These links involve a significant cost that typically precludes simple overengineering and mandates tight dimensioning. Access speeds range from 64 kbps to OC-48.

The USCom nationwide backbone POP topology, interconnected through OC-48 and OC-192 links, is illustrated in Figure 3-1.

The USCom network is structured into three levels of POPs. Each POP is classified as either a backbone (Level 1), medium (Level 2), or small (Level 3) facility. The level depends on the density of the customer access and combined traffic throughput requirements. All routers are operated as a single autonomous system, with American Registry for Internet Numbers (ARIN) assigned AS number 32765. USCom has been assigned the 23/8 IP address space. The company uses this for its internal infrastructure as well as customer allocation.

Level 1 POPs are the backbone POPs (as shown in Figure 3-1) comprising the high-capacity backbone P routers dedicated to long-distance transit and interconnection of lower-level POPs to this long-distance transit backbone. PE routers providing Internet and Layer 3 MPLS VPN services from these major locations are also deployed, as well as some additional P routers acting as an aggregation layer inside the POP for these PE routers. Aggregation P routers reduce the number of IGP adjacencies that have to be maintained by the backbone P routers to two, because each core P router has to peer with only two aggregation P routers (in addition to the other core P routers in the backbone) instead of with all the PE routers in the POP (whose number can be fairly high, and growing, in a Level 1 POP).

Each Level 1 POP has two backbone P routers that interconnect via OC-48, dual OC-48, or OC-192 links to the rest of the backbone network. They also interconnect with lower-level POPs using either OC-3 (155.52 Mbps) or OC-48 links. Each backbone P router is connected to both local aggregation P routers via a point-to-point OC-48 link. Each PE router (and there may be several) is connected to both aggregation P routers via OC-3 PoS links. There are currently 15 Level 1 POPs, the structure of which is illustrated in Figure 3-2.

The Level 2 POPs are composed of P routers that connect to the Level 1 POPs, or another Level 2 POP, via OC-3 or OC-48 links, and the PE routers in medium access locations. Each PE router is connected to both backbone P routers via redundant switched Gigabit Ethernet (using two separate Gigabit Ethernet switches). There are currently 25 Level 2 POPs, the structure of which is illustrated in Figure 3-3.

The Level 3 POPs are composed of PE routers in remote locations and P routers that connect to Level 2 POPs via OC-3 links. There are currently 60 Level 3 POPs, the structure of which is illustrated in Figure 3-4.

Several years ago, USCom deployed a SONET network providing OC-3 links. These links are protected at the SONET layer by the protection mechanisms provided by four-fiber BLSRs. These allow recovery from any link failure, with some special conditions specified by the SONET standard, within 60 ms. USCom satisfies all the conditions, including ring distance limited to 1200 km, less than 16 SONET stations, and ring in idle state before protection. Figure 3-5 shows the protected OC-3 links provided by the four-fiber BLSRs and used between Level 1 and Level 2/3 POPs. Because these links are protected and stable, USCom decided to use them in the core network without any changes.