![]() ![]() ![]() If we check this, I go on to the warehouse switch and enter the command: It has fast Ethernet links compared to Gigabit Ethernet and it's old so it's got limited GPU and memory resources. That old warehouse switch has got little bandwidth links. In the example, the switch with the lowest MAC address becomes the Root Bridge and that happens to be the old switch that we've got in the warehouse down in the bottom right. They just leave it as is and that can lead to the problem as you see in our example. That is because Spanning Tree works just fine straight out of the box and on a lot of networks, therefore, administrators don't touch it at all. You'd be surprised at how often this does actually happen in production networks. In on our example below, all switches have been left with the default Bridge Priority. That is likely to give you suboptimal Root Bridge selection. So, the lowest MAC address is probably going to be the oldest switch. If you think about it, whenever Cisco makes a new switch, we're going to increment the MAC address. The switch with the lowest MAC address will be the Root Bridge and that is liable to be the oldest switch in your network. If you do not manually set the Bridge priority on your switches, they're all going to default to 32768. In the case of a tie, the switch with the lowest MAC address will be selected. The default value is 32768, and the lowest number is preferred. ![]() You can manipulate the Root Bridge Election by setting Bridge priority on your switches. Best practice is to ensure that a pair of high-end core switches are selected as the first and second most preferred Root Bridge. Since Spanning Tree selects paths pointing towards and away from the Root Bridge for forwarding traffic along, the Root Bridge acts as a center point of the LAN. ![]()
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