The trouble with spinning platters this big is that if a drive fails, it will take a long time to rebuild the array after shoving a new one in there. Sysadmins will be nervous about another failure taking out the whole array until that process is complete, and that can take days. There was some debate a while back on if the industry even wanted spinning platters >20TB. Some are willing to give up density if it means less worry.
I guess Seagate decided to go ahead, anyway, but the industry may be reluctant to buy this.
High capacity storage pools for enterprises.
Space is at a premium. Saving space should/could equal to better pricing/availability.
Not necessarily.
The trouble with spinning platters this big is that if a drive fails, it will take a long time to rebuild the array after shoving a new one in there. Sysadmins will be nervous about another failure taking out the whole array until that process is complete, and that can take days. There was some debate a while back on if the industry even wanted spinning platters >20TB. Some are willing to give up density if it means less worry.
I guess Seagate decided to go ahead, anyway, but the industry may be reluctant to buy this.
I would assume with arrays they will use a different way to calculate parity or have higher redundancy to compensate the risk.
If there’s higher redundancy, then they are already giving up on density.
We’ve pretty much covered the likely ways to calculate parity.