Recently finished part 2 of my series on VLANs. This one gets into reimagining the TCP/IP and OSI models in a way that I actually find useful. When I first started looking into writing about these...
Recently finished part 2 of my series on VLANs. This one gets into reimagining the TCP/IP and OSI models in a way that I actually find useful.
When I first started looking into writing about these models, I just got more and more frustrated with the explanations. Too many conflicting takes on something that seems only marginally useful for communication purposes. But in the course of coming up with my own explanation of VLANs, I found that adding some dimension to it made things much more useful for visualization purposes.
First part of the article can be found here (with Tildes thread here).
If you catch any mistakes, please let me know. Whether grammatical, technical, conceptual, or whatever, I'm hungry for some feedback on this. And pizza. Hungry for pizza. I should make some pizza.
Recently finished part 2 of my series on VLANs. This one gets into reimagining the TCP/IP and OSI models in a way that I actually find useful.
When I first started looking into writing about these models, I just got more and more frustrated with the explanations. Too many conflicting takes on something that seems only marginally useful for communication purposes. But in the course of coming up with my own explanation of VLANs, I found that adding some dimension to it made things much more useful for visualization purposes.
First part of the article can be found here (with Tildes thread here).
If you catch any mistakes, please let me know. Whether grammatical, technical, conceptual, or whatever, I'm hungry for some feedback on this. And pizza. Hungry for pizza. I should make some pizza.