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.
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.