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  1. A Network Topology is the arrangement with which computer systems or network devices are connected to each other.[1]
  2. Network topology refers to the manner in which the links and nodes of a network are arranged to relate to each other.[2]
  3. Physical network topology examples include star, mesh, tree, ring, point-to-point, circular, hybrid, and bus topology networks, each consisting of different configurations of nodes and links.[2]
  4. The ideal network topology depends on each business’s size, scale, goals, and budget.[2]
  5. Star network topology -- The most common network topology, star topology connects each device in the network to a central hub.[2]
  6. Admins have a range of options when it comes to choosing a network topology, and this decision must account for the size and scale of their business, its goals, and budget.[3]
  7. Several tasks go into effective network topology management, including configuration management, visual mapping, and general performance monitoring.[3]
  8. Network topology refers to how various nodes, devices, and connections on your network are physically or logically arranged in relation to each other.[3]
  9. Physical network topology, as the name suggests, refers to the physical connections and interconnections between nodes and the network—the wires, cables, and so forth.[3]
  10. Cable required is least compared to other network topology.[4]
  11. Network topology control and traffic engineering involve a number of nodes connected in a network, placement of the nodes, data generation from the nodes, and accumulated loads throughout a network.[5]
  12. A fully connected network, complete topology, or full mesh topology is a network topology in which there is a direct link between all pairs of nodes.[6]
  13. The arrangement of a network which comprises of nodes and connecting lines via sender and receiver is referred as network topology.[7]
  14. A well-planned network topology enhances the user experience and helps administrators maximize performance while fulfilling business needs.[8]
  15. With a properly managed network topology, a business can improve the efficiency of its data transfer.[8]
  16. Definition - What does Network Topology mean?[9]
  17. A network topology is the arrangement of nodes -- usually switches, routers, or software switch/router features -- and connections in a network, often represented as a graph.[10]
  18. Types of physical topologies In the bus network topology, every node is connected in series along a linear path.[10]
  19. In the ring network topology, the nodes are connected in a closed loop configuration.[10]
  20. The mesh network topology links nodes with connections so that multiple paths between at least some points of the network are available.[10]
  21. Creating a network topology map begins with network device discovery.[11]
  22. Some of the most common types of network topology include star, bus, ring, tree, mesh, and hybrid topology.[11]
  23. Network topology empowers MSPs to conduct in-depth network assessments and get to the root of network issues with greater efficiency.[11]
  24. Rather than manually taking inventory of all devices on a network, MSPs can leverage a comprehensive network topology platform to automatically discover all devices on the network in mere minutes.[11]
  25. Every change on a plant can lead to a change of the network topology.[12]
  26. Find out why top IT professionals use SolarWinds® Network Topology Mapper software.[13]
  27. Discover network topology Automatically discovers and delineates network topology and produces comprehensive, easy-to-view network diagrams.[13]
  28. Automatically discovers and delineates network topology and produces comprehensive, easy-to-view network diagrams.[13]
  29. Network topology mapper software can provide reports on switch ports, VLANs, subnets, and inventory.[13]
  30. The network topology is the link that ties end users to a data center and serves as the link between the devices within the data center.[14]
  31. A network topology describes how computers, printers, and other devices (i.e. nodes) are connected to the network.[14]
  32. This type of network topology is relatively easy to install and inexpensive.[14]
  33. Network topology aligns a network setup so each node is interconnected with network links or connecting lines.[15]
  34. Network topology is used to define the layout of a network, its structure, and its shape, both physically and logically.[15]
  35. ® Network Topology Mapper offers automated mapping and on-demand device discovery.[15]
  36. It includes an automated mapping and discovery feature to help teams plan and create their own network topology from scratch.[15]
  37. The network topology that most users will probably be familiar with is the star topology, in which all of the nodes connect to a single central point, such as a router.[16]
  38. However, many organizations are relying on well-established network topology models.[17]
  39. A logical network topology is a conceptual representation of how devices operate at particular layers of abstraction.[17]
  40. A network topology map is a map that allows an administrator to see the physical network layout of connected devices.[17]
  41. This type of network topology is often referred to as line topology.[17]
  42. The layout pattern of the interconnections between computers in a network is called network topology.[18]
  43. Network topology is illustrated by showing these nodes and their connections using cables.[18]
  44. You can use Network Topology to audit your networking configuration or troubleshoot networking issues.[19]
  45. You can start using Network Topology by going to the Google Cloud Console.[19]
  46. To view a Network Topology graph for a project, you must have at least read permissions for the project.[19]
  47. Network Topology can visualize entities from multiple projects in a single graph.[19]
  48. To ensure Tableau Server or Tableau Online is reachable no matter where the client is coming in from, you must determine the right network topology.[20]
  49. Network topology defines the layout, virtual shape, or structure of the network, not only physically but also logically.[21]
  50. This network topology is deterministic in nature, i.e., each computer is given access for transmission at a fixed time interval.[21]
  51. Star topology is a computer network topology in which all the nodes are connected to a centralized hub.[21]
  52. Mesh topology is a computer network topology in which nodes are interconnected with each other.[21]
  53. Network Topology Facts Topology is the term used to describe how devices are connected and how messages flow from device to device.[22]
  54. (A3) is a necessary condition for the purpose of detecting the network topology .[23]
  55. The word network topology is used to explain the manner in which a network is physically connected.[24]
  56. In Tree Topology, all the computer are connected to the central hub, in the computer networking, tree topology is known as combination of a star network topology and a bus topology.[24]
  57. Bus topology is the kind of network topology where every node, i.e. every device on the network is connected to a solo main cable line.[25]
  58. Star Topology is the kind of network topology in which all the nodes are connected via cables to a single node called hub, which is the central node.[25]
  59. Hybrid Topology is basically a network topology comprising of two or more different types of topologies.[25]

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  • [{'LOWER': 'network'}, {'LEMMA': 'topology'}]