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Economic Assessment
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The models shown below demonstrate how the RPR performs financially compared to alternatives based on different network criteria These business models are representative of actual network results Every network is unique and the flexibility of an RPR based ring means that its actual benefits are best calculated using specific data from real networks These tools are provided as a template to demonstrate the many ways that the devices incorporating RPR can yield superior ROI RPR creates a shared ring with a common signaling and control plane implemented in the standards based IEEE 80217 MAC Capital and operating expenses are lower when management and switching functions are automated at lower layers of the OSI model due to reduced manpower required for designing and maintaining network wide QoS Point-to-point connections must be individually and manually configured The common control plane among RPR nodes in a network enables the automation configuration of services between endpoints without configuration of each intermediary point This means that customers and services can be added to the ring once and their configuration information can be replicated across all the switches without further intervention This saves significant operational cost for physical or logical point-to-point topologies Ethernet rings exist but they are proprietary implementations Likewise, Wave Division Multiplexing is configured in logical point-to-point topologies even when the physical topology is a ring Indeed SONET/SDH is topologically a ring but the configuration requires creation of individual point-to-point circuits The manpower and operational expense required for these activities is difficult to quantify, although from the foregoing discussion it is logical that they should be lower in RPR networks However, CapEx is more straightforward The following model demonstrates that equipment expenses as well as OpEx are reduced in the RPR-based ring network
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As an illustration let s examine a Pay TV service that offers 100 channels over an RPR ring verses a point-to-point approach These 100 broadcast channels, in aggregate, will consume approximately 350 Mbps of bandwidth from the servers to the nodes Each customer receives identical feeds simultaneously For this illustration let s compare a 10 Gbps RPR ring with a point-to-point solution Each of the ten 1 Gbps connections is discreet Therefore, each connects the head end with only one of the Gig E uplinks from the aggregation equipment either over WDM or SONET/SDH equipment This means that the 350 Mbps worth of feeds from the 100 Pay TV channels must be sent on each lambda or connection individually Therefore, the bandwidth consumed by Pay TV is 350 Mbps 10 connections or 35 Gbps out of the
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total 10 Gbps available Each 1 Gbps connection feeding the Gig uplinks will receive its own individual broadcast TV signal even though it is identical to the broadcast TV signals simultaneously going to the remaining 9 connections The RPR solution is quite different Since all signals are aggregated and multiplexed in the RPR device the use of multicasting protocols make more efficient use of the ring bandwidth Since the Pay TV signals are identical we only need to send them around the ring once Then each node can replicate them out each 1 Gig port to the aggregation equipment With RPR the portion of ring bandwidth used for this service is 350 Mbps or 1/10 of that required for point-to-point solutions As Table 124 shows this frees an additional 315 Gbps of ring bandwidth
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RPR architecture consolidates network elements resulting in significantly lower CapEx Due to the reduction of network elements OpEx is reduced as well The use of RPR traffic management and MPLS control plane means fewer network elements in the metro network Figure 1222 below represents a point-to-point design that shows L2/L3 switching devices connected to a transport node In Figure 1223 you see a comparable design using an RPR ring The functions of the ADM and the L2/L3 device have been consolidated into one intelligent transport node When you compare this design to one using SONET/SDH with L2/L3 switching /routing the savings are significant Figure 1222 shows how a configuration of L2/L3 switches requires (1) twice the amount of fiber and (2) more optical ports to achieve the same connectivity as the ring This demands twice the investment in fiber and an increase in ports required to build the metro transport network Figure 1223 shows an RPR network that supports the transport functions of the traditional ADM while simultaneously supporting the L2 traffic management and switching functions provided by the Layer 2/3 switching equipment
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