After neighbor relationship is set up utilizing the Hello parcel, trade of directing updates happens between neighbors. Data about the system is put away in the topology database or table from which the best way to each goal is processed and put away in the steering table. At the point when the topology databases for all neighbor switches wind up noticeably synchronized, the neighbors turn out to be completely adjoining. To guarantee that neighbor relationship is kept up and the substance of the topology tables are precise and up– to– date, a switch should occasionally send the Hello bundle. This empowers all getting switches to keep the transmitting switch and its systems in their topology tables for whatever length of time that they keep on receiving the Hello parcel. Contiguousness isn’t built up between all neighbors. Contiguousness arrangement relies upon a system write and how the switches are designed in the system. OSPFv3 sets up nearness utilizing three unique bundles. These are database portrayal (DBD), connect state ask for (LSR), and connection state refresh (LSU) bundles. The DBD bundle contains just LSA headers from the neighbor’s link– state database. At the point when these LSA headers are gotten by a neighborhood switch, it looks at them to its own link– state database header to figure out which LSAs are new or which ones are up– to– date. On the off chance that a portion of the LSAs should be refreshed, the nearby switch sends LSR parcels to its neighbors approaching them to give refresh data to these LSAs. At the point when the neighbors get the LSR bundles, they answer with a LSU parcel in which they give refresh data to the LSAs. The switches proceed with this trade until the point that they all have indistinguishable link– state data. OSPF neighbor relationship and nearness are key highlights of the convention since the neighbor of a switch gathers data about the system and advances this data to different neighbors straightforwardly associated with it. Additionally, the making of the two connections between switches is utilized to control the appropriation of OSPF bundles making the system to focalize quicker (Leahy, 2011).