IMHO
In order to give good flexibility, the 8-cell (or 6-cell, or 7-cell) sub-packs should not be pre-wired for any particular voltage layout.
48V is a low bar these days, 54V much better, many want 60V or 72V or even higher.
And that's just for ebike use cases, for others you will want 19V or 24V. . .
So the connector just brings 6 pairs out, and the xPyS wiring buss is implemented in a separate
"wiring module" which may also carry the fuses, BMS*, maybe a switch and a display or two.
Inexpensive hobby chargers could be used for charging the sub-packs at lower voltages, quickly with fuse-protected parallel boards
or balancing precisely one at a time when that is needed, each cell then being monitored independently, unlike the usual stupidity when they are welded in parallel.
Any bad cells easily revealed over time and just as easily replaced without disturbing the pack overall.
Since charging safety (HVC functionality) and testing / health monitoring, and balancing functionality are all taken care of by the chargers
the only things left for the BMS is LVC based on 1S parallel-group voltage, if only healthy cells are used could even be based off full-pack voltage
maybe SoC% estimation and display,
maybe an overtemp warning?
If the rider is watching the voltage readout, and can just use familiarity / intuition / common sense to avoid drawing DoD% too low
then maybe the in-use-discharging BMS is not even required. . .
