Topology. The network topology currently consists of a centralized switching platform that provides all of the features, services and switching functionality for all customers in a particular network serving area. Each switch delivers services to and from WinStar customers through interconnect facilities to and from the LEC, IXCs and Internet Peering Points to which WinStar has connections. Today, Switches may connect to Hubs in both a hub-and-spoke and ring topology. Hubs connect to Lit Buildings in a hub-and-spoke topology.
Topology. A close look at the content of the Conventions shows that different catego- xxxx of provisions are contained therein: final clauses, uniform rules, and referrals to domestic legislation clauses.
Topology. WinStar's point-to-point local wireless service uses two dishes to transmit and receive signals within a five-mile range. The service is designed to support 99.999% availability, with a 10-year mean-time-between-failure rate and a 10-13-bit error rate. The network topology consists of a centralized switching platform that provides all of the features, services and switching functionality for customers in a particular network serving area. Each switch delivers services to and from Willxxxx xxxtomers through interconnect facilities to and from the LEC, IXCs and Internet Peering Points to which WinStar has connections. Today, switches may connect to Hubs in both a hub-and-spoke and ring topology. Hubs connect to Lit Buildings in a hub-and-spoke topology.
Topology. The following chapter describes DigitalCX, explains the different Service Tiers and the set-up of the platform.
Topology. The network topology for the Crestron Mercury Endpoint to interop with the Avaya Aura 6.3 is as shown below.
Topology. Topology exists within the Xxxxxxx County geodatabase. Overall, the topology is in good shape, however corrections are needed to move forward with the proposed cadastral changes. In addition to correcting the existing topology, several topology rules will be added and deleted to accommodate the proposed cadastral changes.
Topology. The topology screen that appears in the Slice section inside a Project has been modified for the Monitoring sec- tion in order to show two parallel topologies (see Figure 3.2). The bottom topology window shows the physical topology of the available resources. It depicts all the available resources and their connectivity to the resource managers of that slice. The resources belonging to the same testbed are painted in the same colour. For exam- ple Figure 3.2, represents 2 different islands (green and orange colours) linked through TN-RMs (in red) to the "Transport Network" represented by the pink ellipse. The upper topology window shows the resources added to the slice, that is, the ones that the user will use in his experiment. The resources shown in this window are placed exactly above their equivalent resource in the bottom window and mapped with a dotted line to the resources in the bottom window to ease the identification. Furthermore, if a resource is moved in any of both windows, its reflection will move the same way to keep the same position. In this case, the slice topology shows only switches and servers, being the SE-RM, TN-RM and transport network represented by a link as they are resources transparent for the experiment. Apart from the addition of a new window, the screen is also improved by providing more clear information for each node when moving the mouse cursor over the icons. A table with the status of each port of the switch has been added to the displayed information. Figure 3.2: Expedient Topology screen Resource details The new "Resource details" window is the front-end of the monitoring system, showing statistics of a selected resource during a defined period of time. The window allows having a graphical view of the status or the statistics of a selected switch. The user can select the resource, define a window time (date and hour) and will get a graphical representation of the status (up or down) or incoming or outgoing data rate of the selected switch. The window also allows zooming on the graph or visualizing a table with the numeric data from the graph. For example, Figure 3.3 shows both the input and output traffic measured in a switch in the time period from 2015/01/01 to 2015/01/31. Once the data is retrieved, the time periods can be modified through the small graph on the right.
Topology. We first start by describing the topology used in this scenario, also shown in Figure
Topology. The basis for all operation and functionality of the [***]* system is the concept of the topology view. The [***]* is represented on the operator screen as a series of icons and lines. The topology view will allow navigation of all the managed objects contained in the [***]*.
Topology. For the interconnection of its units (Site 1 and Site 2), the solution includes a dedicated connection, as shown in the diagram below:
