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Table 4.5 Selection of HS-20 and alternate HL-93 tandem truck moments and forces for smaller increments in span. Max. Truck Moments Span Length (Feet) 20 Author s Formula* HS-20 (Kip-Ft) 28 distance between outer axles> 20 formula N/A 133.85 168.38 Small spans 203.12 238.05 273.12 308.31 343.59 378.95 414.38 449.87 485.40 538.78 Medium spans 627.91 717.20 806.61 896.11 985.68 1075.31
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Let s assume that the client in this example is actually on the outside of your network, and the X-windows server is on the inside. For the initial client connection to work, you ll need to configure an ACL entry that will allow traffic heading to the X-windows server for UDP port 177 without this, no type of X-windows connection can be made.
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In this case, a Service Provider with a different access infrastructure (SONET, TDM, fiber, copper) at different locations within its footprint is serving a medium-sized enterprise with offices at each of these locations and a couple outside. Requiring a standardized (and consistent) Ethernet service across these customer locations (albeit with the bandwidth varying between 10 and 100M) is an increasingly common scenario. The Service Provider may consider introducing a simple Ethernet Demarcation Device (EDD) based solution (see 2 for some details on EDD) with the corresponding network links (OC-n, T1, Ethernet-over fiber/copper). This is shown in Figure 16.4 and provides a cost-effective solution that enables offering a standardized Ethernet handoff rapidly, irrespective of the last/first mile infrastructure and without disrupting this infrastructure. By employing an EDD, it can also extend this standardized offering over the leased facility (from another operator) to support out-of-region customer locations. These fairly straightforward scenarios depict that often more than a single solution is feasible in a particular environment and also that multiple solutions frequently coexist in the same Service Provider network. Obviously, more complex offerings would make the underpinning delivery solutions more involved. It bears repitition that the solutions described in each of the above scenarios are not necessarily the only feasible options.
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When con guring the OSPF routing process, you must specify a process ID (identi er).This uniquely identi es an instance of the OSPF database on
The policy-map command takes you into a subcommand mode where you reference your layer-3/4 class map name or names with the class command. When referencing a class map, you are taken into a second subcommand mode. In this second mode, you reference the actual policies for the class of traffic. Note that you can specify more than one policy for a class of traffic. The following sections will discuss how to set up the specific policies.
1.2.1 The Physical layer (layer 1)
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The SS7 MTP2 Peer-to-Peer Adaptation Layer (M2PA) provides adaptation between MTP3 and SCTP. As is the case for M2UA, the MTP3 layer at an IP node (such as an MGC) communicates with M2PA as if it were regular MTP2. Consider Figure 7-17, which shows a potential usage of M2PA. Even though M2UA and M2PA have some similarities, they are different in a number of respects. Although M2UA enables an IP-based node to utilize a standard MTP2 at a remote SG, M2PA is more akin to an IP-based version of MTP2. In other words, the SG-MGC connection shown in Figure 7-17 is effectively an SS7 link. That is not the case for the corresponding connection on Figure 7-16. One result of this difference is that an SG that utilizes M2UA is effectively a remote signaling terminal for the MGC shown in Figure 7-16. An SG that utilizes M2PA is a signaling node in its own right; it has its own signaling point code, and it is effectively an IP-based STP. These characteristics mean that the SG can also process higher-layer signaling functions, such as SCCP. Therefore, an SG that uses M2PA could perform Global Title Translation (GTT), for example. An M2UAbased SG cannot perform such functions.
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