I mean you can say the same for spinning magnetic platters. “The more bits you’re trying to squeeze into a fixed size HDD the less robust it is.”
I’m not saying these guys can do it, but dismissing higher densities of storage out of hand seems a bit glib considering the last 60 years of progress and innovation.
That’s never really been an issue with HDDs as far as I’m aware, although 10k rpm drives were known to be more fragile IIRC. The lower life and robustness of QLC vs SLC flash is well known.
Decades ago, a collegue of mine (who once worked in hard drive design) said, “Oh, hard drives stopped reading 1’s and 0’s years ago. Now they compute the probability that the data just read was a 1 or a 0.”
Google says hdd idle is higher than SSD. Ssd is higher under load but it’s important to look at total energy used. If the SSD spikes high, but is 10x faster, the total energy used will be less.
The Seagate Exos in my aray consume 8-9W each on idle, and 12-13W active. I doubt that a NVME would consume that much in idle, which will be most of the time for data storage.
Generally the more layers you add to an SSD the less robust it is. If this is real your data will be corrupt within a week.
I mean you can say the same for spinning magnetic platters. “The more bits you’re trying to squeeze into a fixed size HDD the less robust it is.”
I’m not saying these guys can do it, but dismissing higher densities of storage out of hand seems a bit glib considering the last 60 years of progress and innovation.
That’s never really been an issue with HDDs as far as I’m aware, although 10k rpm drives were known to be more fragile IIRC. The lower life and robustness of QLC vs SLC flash is well known.
Because drives use ECC and spare sectors to give the illusion of reliability just like QLC.
Here is reliability vs drive size.
Decades ago, a collegue of mine (who once worked in hard drive design) said, “Oh, hard drives stopped reading 1’s and 0’s years ago. Now they compute the probability that the data just read was a 1 or a 0.”
They’re a flat-storager.
Should work perfectly with Flatpack apps then!
And they use far more energy. Meanwhile spinning disks can sit idle with all of my hoarded data.
Google says hdd idle is higher than SSD. Ssd is higher under load but it’s important to look at total energy used. If the SSD spikes high, but is 10x faster, the total energy used will be less.
The Seagate Exos in my aray consume 8-9W each on idle, and 12-13W active. I doubt that a NVME would consume that much in idle, which will be most of the time for data storage.
That is exactly what ppl like you said when SLC came out and TLC came out and QLC came out…
Look back now.