Abstract:
Software-defined networking centralizes forwarding device management. Centralization lets network administrators program devices cheaply. Network administrators try to switch to SDN-compatible switches.
SDN and legacy switching functions can work well together in network architecture. In this study, SDN devices replace service provider network external boundary forwarding devices. Other internal forwarding devices operate normally. SDN and legacy network design benefits are combined to benefit the network administrator.
Policy-based routing uses free IP addresses from the free IP pool. SDN architecture requires efficient use of flow table space due to its small size. Performance metrics like network path stretch, throughput, latency delay, and others are used to compare the algorithm to traditional SDN controllers like OpenDayLight, NOX, and POX. Experimental results show that the suggested hybrid SDN approach outperforms similar state-of-the-art methods.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
Keywords: Routing, Network Architecture, Ip Networks, Computer Architecture, Topology, Throughput, Ip Networks, Software Defined Networking, Telecommunication Network Routing
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