These big switch boxes typically end up being about thermal management and this box looks like thermal design was an afterthought. Also I'm not sure the power entry design is really all that smart. Generally speaking if you're in the market for a 640Gb/s switch (or 3.8Tb/s switch), does your data center really not have access to 48V power? The AC/DC conversion wastes power and space.
The QSFP's are "spaced for optimal airflow." However this spacing seems to neglect cooling the QSFPs themselves. Belly-to-belly mounting of modules is usually the most thermally challenging way to arrange them. The heat dissipated by the QSFP's is generally directed towards the top of the module. By placing open air channels between modules, they have effectively ensured that little to no air flows over the QSFP heat sinks (which is not shown). So there is probably a limitation on which reach codes are supported. My guess is that because of the thermal limitations of this design, it's not truly non-blocking in all reach configurations.
It's pretty common here (nl), you have to ask for it but it is usually available. I'd advise against it because you're deviating from the bulk but if you need it you can usually get it, especially at the larger colocation facilities.
This is true, however: 48V circuits are generally priced 'per-amp' just like 120V or 240V circuits. That translates into much higher cost-per-watt and with the efficiency of AC switching supplies being well over 90% you're probably better off from an economics point of view of getting the highest voltage supply that you can get and then to step down in your rack mounted devices.
The QSFP's are "spaced for optimal airflow." However this spacing seems to neglect cooling the QSFPs themselves. Belly-to-belly mounting of modules is usually the most thermally challenging way to arrange them. The heat dissipated by the QSFP's is generally directed towards the top of the module. By placing open air channels between modules, they have effectively ensured that little to no air flows over the QSFP heat sinks (which is not shown). So there is probably a limitation on which reach codes are supported. My guess is that because of the thermal limitations of this design, it's not truly non-blocking in all reach configurations.