> The primary benefit of MLC flash memory is its lower cost per unit of storage due to the higher data density, and memory-reading software can compensate for a larger bit error rate.[5] The higher error rate necessitates an error correcting code (ECC) that can correct multiple bit errors; for example, the SandForce SF-2500 Flash Controller can correct up to 55 bits per 512-byte sector with an unrecoverable read error rate of less than one sector per 1017 bits read.
Making the cells smaller and cramming more bits per cell reduces the amount of energy/radiation required to trigger a bit flip, making the data more vulnerable. It sounds like they may also be increasing the energy put out by the scanners. Not a very good combination if you care about your data. Maybe they'll push the fraction of storage reserved for error-correction data even higher to compensate.
IIRC, radiation-hard chips often used processes with larger feature sizes and different materials in order to be more resistant to the effects of radiation.
Yes, but they're pushing the the technology so far to get higher densities that error correction is required for normal operation:
https://en.wikipedia.org/wiki/Multi-level_cell
> The primary benefit of MLC flash memory is its lower cost per unit of storage due to the higher data density, and memory-reading software can compensate for a larger bit error rate.[5] The higher error rate necessitates an error correcting code (ECC) that can correct multiple bit errors; for example, the SandForce SF-2500 Flash Controller can correct up to 55 bits per 512-byte sector with an unrecoverable read error rate of less than one sector per 1017 bits read.
Making the cells smaller and cramming more bits per cell reduces the amount of energy/radiation required to trigger a bit flip, making the data more vulnerable. It sounds like they may also be increasing the energy put out by the scanners. Not a very good combination if you care about your data. Maybe they'll push the fraction of storage reserved for error-correction data even higher to compensate.
IIRC, radiation-hard chips often used processes with larger feature sizes and different materials in order to be more resistant to the effects of radiation.