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Figure 107 Using circuit bonding with DS-3 transport
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Manageability Circuit bonding provides a complete transmission layer management system This allows carrier-grade fault isolation and performance monitoring of a circuit bonded link, effectively extending carrier-class networking off-net to the Ethernet customer Figure 109 shows circuit bonding being used to extend Ethernet to an off-net customer Transparency is maintained And carrier class end-to-end transmission layer management is available
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Figure 108 Using circuit bonding with copper facilities
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Tra ns pa ren t
d-t lay o-en er d tr ma an na sm ge iss Eth me ion nt ern et co nn ec tiv ity
SONET NE Circuitbonded system
Ethernet client
Using circuit bonding to extend Ethernet to an off-net client
Carrier Ethernet
Ethernet services in the MAN can take on a number of forms, and the service can be described by a number of parameters From the perspective of providing Carrier Ethernet transport service in the MAN, the following is a list of the most important characteristics as defined by the Metro Ethernet Forum (MEF):
Protection Hard QoS Backward compatibility Service management Scalability
These topics will be discussed in more detail in the following sections Ethernet networks are generally protected using the Spanning Tree Protocol per IEEE 8021D When a segment of the Ethernet network fails, a new spanning tree is calculated If a redundant path around the failure is available, the network uses it instead of the failed segment This protection scheme is robust from an interoperation point of view and has been implemented in the LAN environment for some time
Protection
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However, this simple method has several drawbacks, all of which are magnified in the MAN environment:
Segment protection Ethernet segments are not protected within the segment For example, if a hub fails, all workstations on the hub can no longer communicate Protection availability There is no guarantee that a protection path is available Ethernet reconfigures and uses an alternate path only if the alternate path is available Protection size There is no guarantee that a protection path will be the same size as the failed link A gigabit path may only have access to a 100 Mbps path to use as an alternate This may not be acceptable for mission-critical data Performance monitoring Ethernet does not offer sophisticated performance monitoring, making a geographically diverse Ethernet MAN difficult to manage in failure scenarios The lack of good fault isolation mechanisms (such as SONET LOS alarms) makes it difficult to pinpoint failures in the network This may be acceptable in the case of a LAN located in a controlled environment, but fault isolation becomes critical if the network is leased and extends across a metropolitan area
Circuit bonding can be used to overcome some of these limitations By using circuit bonding to transport Ethernet (either over SONET or copper facilities), the well-established, carrier-class standards of protection equivalent to those offered by SONET are available While other solutions exist to carry Ethernet over SONET, only circuit bonding offers full transparency and efficient transport Circuit bonding supports line-side M:N protection This allows the clients to share the bandwidth of multiple parallel line-side connections and also use some of these lines as active, load-sharing standby facilities Circuit bonding can also provide redundant diverse path protection It maps client information onto a set of line-side transmission paths By using physically diverse routes, a circuit-bonded system can offer path protection Circuit bonding reacts very quickly to failures and automatically performs load sharing across all available paths well within the MEF-required 50 ms timeframe This capability allows a service provider to offer protected off-net or on-net Ethernet service without the cost of SONET transmission
Hard QOS/Throughput
One of the primary strengths of packet networking, such as Ethernet, is that statistical multiplexing becomes possible This greatly increases the bandwidth efficiency of networks A typical customer requires the bandwidth to transmit data in minimal time Because of expense, it is very difficult to provide customers with a full-time, fast end-to-end network Fortunately, most customers do not require the maximum bandwidth be available all the time Because of this, packet networks that allow some of the resources to be shared can be utilized Each Ethernet segment is capable of a maximum bit-rate based on the physical layer transmission medium For example, each client on a 100BaseT segment can transmit at 100 Mbps, but only one segment at a time The same principle can be applied to switched or bridged Ethernet segments A segment connecting a set of other segments to a server may have less
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