There are two approaches to battery design:
1) Use a few large cells. The Porsche Taycon Performance Battery uses 28 modules in series, each module 2 cells in parallel, 6 in series, 396 cells total. If a single cell fails, you lose 1/396th of your range and half your max power-- so the battery must be repaired. This means the modules must be easily removeable and serviceable, which means lots of connectors (subject to corrosion/vibration), and lots of steel.
2) Use a large number of small cells in large modules. The Tesla model 3 Performance uses 4 modules in series, each 46 cells parallel, 23 or 25 cells in series, 4,416 cells total. If a single cells fails, you lose 1/4416th of your range, and 1/46 of your max power. Cell failures are treated like bad sectors on a disk, or bad pixels in an LCD -- a certain number are expected, and the capacity is derated to account. This allows more soldered/welded connections instead of removeable connectors, use of glue, and less steel.
Both schemes work -- Tesla Model Y (and presumabely Cybercab) LFP batteries use approach #1.