Chips that can’t fit on a 76mm board do not exist in any market. There’s been some fringe chasing of waferscale for compute, but it’s a nightmare of cost and yield with zero applicable benefits for storage. You can fit more chips on a bigger board with fewer controllers, but a 3.5" form factor wouldn’t have any more usable board surface area than an E1.L design, and not much more than an E3.L. There’s enough height in the thickest 3.5" to combine 3 boards, but that middle board at least would be absolutely starved for airflow, unless you changed specifications around expected airflow for 3.5" devices and made it ventilated.
Given that there are already 32TB 2.5” SSDs, what does a 3.5” buy you that you couldn’t get with an adapter?
They should be cheaper since theres a bunch more space to work with. You don’t have to make the storage chips as small.
Chips that can’t fit on a 76mm board do not exist in any market. There’s been some fringe chasing of waferscale for compute, but it’s a nightmare of cost and yield with zero applicable benefits for storage. You can fit more chips on a bigger board with fewer controllers, but a 3.5" form factor wouldn’t have any more usable board surface area than an E1.L design, and not much more than an E3.L. There’s enough height in the thickest 3.5" to combine 3 boards, but that middle board at least would be absolutely starved for airflow, unless you changed specifications around expected airflow for 3.5" devices and made it ventilated.
A big heat sink like they used to put on WD Raptor drives.
Build quality