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Where are the High-Capacity SCSI Drives?

Posted by Cliff on from the has-ATA-surpassed-SCSI dept.

An anonymous reader asks: "Storage technology has really exploded in recent years, giving us ATA drives up to and exceeding 200-250 GB per drive. Why is it that SCSI drive technology has remained stagnant? I can't find a SCSI drive exceeding about a 146 GB capacity. Instead, businesses (and some individuals) wanting greater storage capacities are required to buy more drives which takes up more space, generates more heat, provides more points of failure, uses more electricity, etc. Why is this so?"

1 of 138 comments (clear)

  1. My Guess by MBCook · · Score: 4, Insightful
    My guess is a simple one. Who buys SCSI stuff? It's expensive so it's mostly businesses and others who need high reliability (which one of the major reasons SCSI is more expensive). Now while normal people can "afford" to lose 250, 300, or more GB of data, for a business that could be worth billions of dollars.

    The solution to this reliability problem is the RAID. There are two RAID levels that are ideal (there are more, but this is a simple explanation). There is 1, which is just a mirror; and 5, which is striping with parity.

    With RAID 1, if you have 500 GB of data, you would need 2 500 GB drives. You lose 50% of the capacity you buy. The other option is RAID 5, where you lose (1/number of disks). So you could store 500 GB of data on 6 100 GB disks. This way you've only lost 100 GB of storage to redundancy as opposed to 500 GB.

    So when businesses want to store large ammounts of data, it's more economical to use many smaller drivers than to large drives. Even if you don't need the redundancy (for example the disk is just being used for temporary storage while working on large digital picture or video files) they it's still better to use many small disks. While using a 500 GB drive will only go so fast (lets just say 60 MB/s sustained), by using a RAID, you can mulitply that. So by using 5 100 GB drives, you might be able to sustain 300 MB/s (assuming the bus can keep up, etc). Even if you only scale at 50% (that would be 150 MB/s) that's still 2 to 3 times faster than a single drive. That performance can save you money.

    So, if you can afford it you can get much better performance or economics from using multiple smaller drives from one large one.

    That's my theory/understanding. Begin tearing it apart!

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