The original post describes a main (top) switch and 3 subsidiary switches with a single vlan 500. But in a follow up post there is a png attachment that shows vlans 200, 201, 202, and 203. Where do these vlans come from and what do they do?
The png attachment also shows a layout of IP addresses starting at 10.30.13.0 and incrementing through 10.30.13.15, suggesting 4 IP addresses per site. That is a bit problematic, especially if they intend to treat the subsidiary switches as layer 3 switches.
There are probably several ways that this network could be implemented:
- one option would be to treat the subsidiary switches as layer 2 only switches connecting to the top switch. The top switch would operate as layer 3 and would do all routing for the network. The subsidiary switches might have just a single vlan connecting to the main switch (with all the switches sharing the single vlan) which sounds like one possibility suggested in the original post having just vlan 500. Or perhaps each subsidiary switch might have its own vlan (suggesting a network with multiple subnets).
- another option would be to treat each switch as a layer 3 switch. The network might use vlan 500 as the management vlan where each switch had an interface in vlan 500. And each switch could have its own data vlan and could run a routing protocol to advertise its data vlan over vlan 500 so that it was reachable from other switches.
The layout of IP addresses from 10.30.13.0 to 10.30.13.15 is probably problematic. If the network is to be implemented with all switches sharing a single vlan (and all routing done by the top switch) then this address plan might work. But if each switch is to operate independently then each block of addresses needs subnetting logic where each subnet has a network address, a broadcast address, and user addresses and the given addressing plan needs to be changed.
Perhaps the original poster can provide some clarification about how the network is intended to work?
HTH
Rick
