At that speed, you have less than 0.3 mm per clock cycle for your signals to propagate. Seems like you’d either need to make ridiculously tiny gadgets, or devote a lot of resources to managing the delays. Seems reasonable enough.
You would agree with my stated confidence? I’m not sure what physical processes limit the size of elements at the bottom end—for all I know, they might already hit at 100 GHz.
At that speed, you have less than 0.3 mm per clock cycle for your signals to propagate. Seems like you’d either need to make ridiculously tiny gadgets, or devote a lot of resources to managing the delays. Seems reasonable enough.
You would agree with my stated confidence? I’m not sure what physical processes limit the size of elements at the bottom end—for all I know, they might already hit at 100 GHz.